Evaluation of Cost-Effective Systems for Railway Level-Crossing Protection

ECONOMIC AND SOCIAL COMMISSION FOR ASIA AND THE PACIFIC

EVALUATION OF COST-EFFECTIVE SYSTEMS FOR RAILWAY LEVEL-CROSSING PROTECTION

UNITED NATIONS ECONOMIC AND SOCIAL COMMISSION FOR ASIA AND THE PACIFIC

EVALUATION OF COST-EFFECTIVE SYSTEMS FOR RAILWAY LEVEL-CROSSING PROTECTION

UNITED NATIONS New York, 2000 ST/ESCAP/2088

______The opinions, figures and estimates set forth in this report were supplied by the respective railway administrations. They are the responsibility of the author and should not necessary be considered as reflecting the views or carrying the endorsement of the United Nations.

The designations employed and the presentation of the material do not imply the expression of any opinion whatsoever on the part of the Secretariat of the United Nations concerning the legal status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries.

Mention of firm names and commercial products does not imply the endorsement of the United Nations.

This publication has been issued without format editing. CONTENTS ! Page ! CHAPTER 1

INTRODUCTION """""""""""""""##""""###"##!!!!$! ! CHAPTER 2

SCALE AND SEVERITY OF RAILWAY LEVEL CROSSING ACCIDENT PROBLEM IN SELECTED COUNTRIES OF THE REGION"""""""""""""""""""""""##""#!!!!%! ! &#$! '()(*+,!""""""""""""""""""""""####!!!!%! ! &#&! -(.(,!/*0112)3!4+5(67!2)!8)92+!""""""""""""#####!!!!%! &#&#$! 4:;;+*7!"""""""""""""""""###"#!!!!!%! &#&#&! -(.(,!<*0112)3!1+5(67!*(<0*9!"""""""""###"#!!!!=! &#&#%! -(.(,!<*0112)3!<>+*+<6(*2162<1!+)9!(55(<62.()(11!""##!!!!?! &#&#=! @9;2)216*+620)!05!*+2,A+7!1+5(67!*(3:,+620)1B!*0,(!05! 6>(!/C4""""""""""""""""""""!!$$! &#&#D! -(.(,!<*0112)3!1716(;!(.+,:+620)!6(<>)2E:(1!""#"##!!$&! &#&#F! -(.(,!<*0112)3!1+5(67!2)262+62.(1!"""""""""###!!$=! &#&#?! -(.(,!<*0112)3!1+5(67!2;G(92;()61!"""""""#"!!$F! ! &#%! -(.(,!/*0112)3!4+5(67!2)!6>(!81,+;2+*+<6(*2162<1!+)9!(55(<62.()(11!"##"!!$I! &#%#=! @9;2)216*+620)!05!*+2,A+7!1+5(67!*(3:,+620)1""""###!!&J! &#%#D! -(.(,!<*0112)3!1716(;!(.+,:+620)!6(<>)2E:(1! ! K6(<>)2<+,!+)9!52)+)<2+,L""""""""""#"""!!&J! &#%#F! -(.(,!<*0112)3!1+5(67!2)262+62.(1!##""""""#"""!!&&! &#%#?! -(.(,!<*0112)3!1+5(67!2;G(92;()61!"""""#"""!!&&! ! &#=! -(.(,!/*0112)3!4+5(67!2)!6>(!C:112+)!M(9(*+620)"""#""!!&%! &#=#$! -(.(,!<*0112)3!<>+*+<6(*2162<1!+)9!(55(<62.()(11!""#!!&%! &#=#&! -(.(,!<*0112)3!(.+,:+620)!1716(;!"""""""#"##!!&?! &#=#%! -(.(,!<*0112)3!1+5(67!2;G(92;()61""""""#""!!!&N! ! &#D! -(.(,!/*0112)3!4+5(67!2)!O2(6!P+;##""""""""""####!!%J! &#D#$! 4:;;+*7""""""""""""""""""#"!!!%J! &#D#&! -(.(,!<*0112)3!1+5(67!*(<0*9""""""""""#"!!%$! &#D#%! -(.(,!<*0112)3!<>+*+<6(*2162<1!+)9!(55(<62.()(11""##!!!%%! &#D#=! @9;2)216*+620)!05!1+5(67!*(3:,+620)1!2)!*(,+620)!60! ,(.(,!<*0112)31"""""""""""""##"""###!!%D!

i CONTENTS K/0)62):(9L! ! Page ! &#D#D! -(.(,!<*0112)3!1716(;!(.+,:+620)!6(<>)2E:(1! K6(<>)2<+,!+)9!52)+)<2+,L"""""""""""""#!%F! &#D#F! -(.(,!<*0112)3!1+5(67!2)262+62.(1""""""""""!%N! &#D#?! -(.(,!<*0112)3!1+5(67!2;G(92;()61""""""""##!=$! ! &#F! -(.(,!/*0112)3!4+5(67!2)!Q+)3,+9(1>R!S>2,2GG2)(1!+)9!! T>+2,+)9"""""""""""""""""""""""!=D! &#F#$! -(.(,!<*0112)3!1+5(67!*(<0*9"""""""""""#!=D! &#F#&! -(.(,!<*0112)3!<>+*+<6(*2162<1!+)9!(55(<62.()(11""##!=?! &#F#%! -(.(,!<*0112)3!1716(;!(.+,:+620)!6(<>)2E:(1""""!=I! ! CHAPTER 3! ! RAILWAY LEVELCROSSING SAFETY EXPERIENCE AND ENHANCEMENT IN DEVELOPED COUNTRIES""""""""#!D$! ! %#$! '()(*+,""""""""""""""""""""###"#"!!D$! ! %#&! 40;(!9(52)2620)1"""""""""""""""""#""#!D$! ! %#%! UVG(*2()<(!05!6>(!W)26(9!X2)390;!2)!1+5(67! ;+)+3(;()6""""""""""###""""""""""#!D&! %#%#$! @!<>+)3(!2)!6>(!G>2,010G>7!05!*+2,A+7!1+5(67! ;+)+3(;()6""""""""""""""""##"##!D%! %#%#&! Y(.(,0G;()6!05!+!C21Z![+)+3(;()6!@GG*0+<>!2)!! Q*2621>!C+2,A+71""""""""""""""##""#!D=! %#%#%! C21Z!;+)+3(;()6!+1!+GG,2(9!60!,(.(,!<*0112)3!! +<<29()61!2)!6>(!W)26(9!X2)390;"""""""""##!DI! %#%#=! 4+5(67!O+,:+620)!2)!T*+)1G0*6!S*0\(<6!@GG*+21+,"##"##!F&! ! %#=! -(.(,!<*0112)3!(VG(*2()<(!05!6>(!W)26(9!46+6(1!05! @;(*2<+"""""""""""""""""""""""#!FD! ! %#D! -(.(,!<*0112)3!(VG(*2()<(!05!/+)+9+""""""""""#!FI! ! %#F! -(.(,!<*0112)3!(VG(*2()<(!05!<0)62)()6+,!U:*0G("""""#! ?&! ! %#?! -(.(,!<*0112)3!(VG(*2()<(!05!]+G+)"""""""""""!!N$! %#?#$! -(.(,!<*0112)3!(.0,:620)""""""""""""###! N$! %#?#&! /:**()6!,(.(,!<*0112)3!2).()60*7""""""""##"!!N&! %#?#%! -(.(,!<*0112)3!1+5(67!G(*50*;+)<(!2)!]+G+)"""#"! ND! %#?#=! -(.(,!<*0112)3!(.+,:+620)!;(6>091!2)!]+G+)""""! NI! %#?#D! [060*!.(>2<,(!9*2.(*!(9:<+620)"""""""""###! IJ! %#?#F! M:6:*(!,(.(,!<*0112)3!1+5(67!G0,2<7"""""""#"!! I$!

ii CONTENTS K/0)62):(9L! ! Page ! CHAPTER 4

RECOMMENDED TECHNIQUES FOR RAILWAY LEVEL CROSSING SAFETY ASSESSMENT IN THE ASIA-PACIFIC REGION""##"!!I%! ! =#$! '()(*+,"""""""""""""""""""""##"#! I%! ! =#&! C(E:2*(;()61!05!+!4+5(67![+)+3(;()6!8)50*;+620)!4716(;##!I=! ! =#%! C(,(.+)<(!+)9!+GG,2<+620)!05!^:+)6252(9!C21Z!@)+,7121!60! ,(.(,!<*0112)3!1+5(67!;+)+3(;()6""""""""""#"!$J$! ! =#=! /016_Q()(526!U.+,:+620)!05!,(.(,!<*0112)3!1+5(67!;+)+3(;()6! ;(+1:*(1"""""""""""""""""""#""#!!$JD! =#=#$! O+,:2)3!>:;+)!,25("""""""""""""#"##! $JF! =#=#&! @11(112)3!6>(!9(,+7!*(9:<620)!H()(5261!05!+,6(*)+62.(! ,(.(,!<*0112)3!G*06(<620)!1716(;1"""""""##"!$JN! =#=#%! M2)+)<2+,!+)+,7121!05!+,6(*)+62.(!;(6>091!05!1+5(67! ()>+)<(;()6!+6!,(.(,!<*0112)31""""""""####!!$$%! ! =#D! T(<>)2<+,!+11(11;()6!05!,(.(,!<*0112)3!G*06(<620)!9(.2<(1##!$$=! =#D#$! /:**()6,7!+.+2,+H,(!,(.(,!<*0112)3!G*06(<620)!!!!!!!!!!!!!!!! 1716(;1"""""""""""""""""""##!$$=! =#D#&! M:6:*(!1716(;1!50*!,(.(,!<*0112)3!G*06(<620)"""###!$$?! ! CHAPTER 5

CONCLUSIONS AND RECOMMENDATIONS"""""""#"#!$&$! ! D#$! '()(*+,""""""""""""""""""""###""!$&$! ! D#&! /0)<,:120)1"""""""""""""""""""""!$&$! D#&#$! /0;G+*+62.(!,(.(,!<*0112)3!1+5(67!G(*50*;+)<(""##!$&$! D#&#&! /0;G+*+62.(!<0161!05!,(.(,!<*0112)3!1716(;1""#####!!$&$! D#&#%! Y0!6>(!*+2,A+7!1716(;1!05!6>(!*(320)!>+.(!+)!+9(E:+6(! 2)50*;+620)!H+1(!50*!1(662)3!,(.(,!<*0112)3!:G3*+92)3! G*20*262(1`"""""""""""""""""""!$&&! D#&#=! @*(!6>(!*+2,A+71!05!6>(!*(320)!<0;;266(9!60!*0+9!:1(*! (9:<+620)!G*03*+;;(1!+)9!G06()62+,,7!>0A!(55(<62.(! +*(!6>(1(!G*03*+;;(1`""""""""""""##!!$&&!

iii CONTENTS K/0)62):(9L! ! Page ! D#&#D! T*+552*(1>0,9!<*26(*2+!50*!,(.(,!<*0112)3!! 2;G*0.(;()6"""""""""""""""""#!!$&=! D#&#F! -(.(,!<*0112)3!1+5(67!+)9!0G(*+620)+,!(552<2()<7""#!$&=! ! D#%! C(<0;;()9+620)1""""""""""""""""""!$&D!

iv LIST OF TABLES

Page ! T+H,(!&#$! 423)252<+)<(!05!+)9!6*()9!2)!,(.(,!<*0112)3!+<<29()61!2)!! ! 8)92+""""""""""""""""""""""""###! !!=!! T+H,(!&#&! 423)252<+)<(!05!+)9!6*()9!2)!,(.(,!<*0112)3!5+6+,262(1!2)!! ! ! 8)92+"""""""""""""""""""""""#"##!!!!F! T+H,(!&#%! 423)252<+)<(!05!+)9!6*()9!2)!,(.(,!<*0112)3!2)\:*2(1!2)!! ! ! 8)92+""""""""""""""""""""""""#"!!!F! T+H,(!&#=! -(.(,!<*0112)31!0)!6>(!8)92+)!C+2,A+71!)(6A0*ZR!H7!67G("##"!!!N! T+H,(!&#D! /+:1(1!05!+<<29()61!+6!;+))(9!,(.(,!<*0112)31R!$II%_I=! ! 60!$II?_IN#"""""""""""""""""""""#####!!!I! T+H,(!&#F! -(.(,!<*0112)3!<>+*+<6(*2162<1!+)9!G(*50*;+)<(R!H7!a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b!;2,,20)L!"""""""""""""""##! D%! T+H,(!%#&! @<<29()61!+6!G*06(<6(9!,(.(,!<*0112)31R!$!@G*2,!$II$_! ! ! %$![+*<>!$II&"#""""""""""""""""""#! FJ! T+H,(!%#%! '*011!0:6G:6!+)9!cTS!16+62162<+,!,25(!.+,:+620)1!:1(9!H7! ! W)26(9!X2)390;!Y(G+*6;()6!05!T*+)1G0*6!50*!*0+9!! +<<29()61""""""""""""""""""""""! F%! T+H,(!%#=! -(.(,!<*0112)31!2)!]+G+)R!H7!<,+11"""""""""""! N%! T+H,(!%#D! -(.(,!<*0112)3!+<<29()61!+)9!<+1:+,62(1R!H7!<,+11!05! ! <*0112)3""""""""""""""""""""""#!! N=!

v LIST OF TABLES!K/0)62):(9L!

Page

T+H,(!%#F! P:;H(*1!05!$16!<,+11!,(.(,!<*0112)31!+)9!<*0112)3!! ! 0H16*:<620)!9(6(<60*1!K<#0#9#L!0)!]C!U+16!1716(;##""""##!! ND! T+H,(!%#?! C+2,A+7!@<<29()61!+)9!-(.(,!/*0112)3!@<<29()61!2)!! ! ! ]+G+)""""""""""""""""""""""""! NF! T+H,(!%#N! C+2,A+7!+<<29()61!2)!]+G+)!$IINR!H7!G*2;+*7!<+:1("""##!! N?! T+H,(!%#I! -(.(,!<*0112)3!+<<29()61!2)!]+G+)!$IINR!H7!G*2;+*7!<+:1(##!! N?! T+H,(!%#$J! P:;H(*!05!5+6+,262(1!+)9!2)\:*2(1!2)!,(.(,!<*0112)3!+<<29()61! ! 2)!]+G+)###""""""""""""""""""""#!"#! NN! T+H,(!%#$$! T*()9!60!,(.(,!<*0112)3!5+6+,267!+)9!2)\:*7!!*+6(1!! ! KG(*!;2,,#6*+2)_Z;L"""""""""""""""""""##!NI! T+H,(!=#$! -(.(,!/*0112)3!8).()60*7#"""""""""""""""! ID! T+H,(!=#&! Y(6+2,(9!,(.(,!<*0112)3!+<<29()6!*(G0*6!"""""""""! II! T+H,(!=#%! UV+;G,(!05!/016_Q()(526!@)+,7121!05!,(.(,!<*0112)3!H+**2(*! ! 2)16+,,+620)!H+1(9!0)!.+,:(!05!5+6+,267!G*(.()620)"""###"!!!$J?! T+H,(!=#=! M2)+)<2+,!+)+,7121!05!*0+9!0.(*G+11!<0)16*:<620)!! ! G*03*+;;("""""""""""""""""""""#!!$$J! T+H,(!=#D! U<0)0;2+*+<6(*2162<1! ! +)9!1+5(67!G(*50*;+)<(!2)!1(,(<6(9!9(.(,0G(9!+)9!! ! 9(.(,0G2)3!<0:)6*2(1""""""""""""""#"##"!!!$&%! ! !!!!! !

vi LIST OF FIGURES

Page

M23:*(!&#$! -(.(,!<*0112)3!+<<29()61!2)!8)92+R!H7!67G(!05!<*0112)3!!"#"##!!!D! M23:*(!&#&! -(.(,!<*0112)3!+<<29()6R!5+6+,267!+)9!2)\:*7!*+6(1!2)!8)92+""#!!!?! M23:*(!&#%! -(.(,!<*0112)3!+<<29()61!2)!6>(!81,+;2(! ! ! 81,+;2(!81,+;2(!81,+;2(!@-@CS!S*2)<2G,("""""""""""""""""! DF! M23:*(!%#&! C+2,6*+(!]C!! U+16!/0#!1716(;!"""""""""""""""""""! ND! M23:*(!%#$N! 423)252<+)<(!05!-(.(,!/*0112)3!@<<29()61!2)!6>(!e.(*+,,!! ! 4+5(67!05!!C+2,A+71R!]+G+)""""""""""""""##! NF! M23:*(!%#$I! T*()9!2)!,(.(,!<*0112)3!+<<29()6!*+6(!! K+<<29()61!G(*!;2,,#6*+2)_Z;L""""""""""""""##!NF! M23:*(!=#$! @GG,2<+620)!05!M+:,6!T*((!@)+,7121!T(<>)2E:(1"""""###!$J&! M23:*(!=#&! @GG,2<+620)!05!U.()6!T*((!@)+,7121!T(<>)2E:(1!"""""#!$J=! M23:*(!=#%! @T/4!/0)<(G6!"""""""""""""""""""#!$$N! !

vii CHAPTER 1: INTRODUCTION

Road/rail grade intersections are unique in the world of transport in as much as they present the only case of two different infrastructures placed under different responsibilities and travelled by vehicles with dramatically different performances which converge and meet during their normal operation. The result is that these intersections constitute high-risk spots for all railways in the world. The potential for accidents is made higher as the railways only control only half the problem. The other half, meanwhile, cannot really be said to be controlled by one entity as, even though traffic rules and road design standards supposedly exist, the movements of road users are not organised and monitored by one specific entity as rigidly as rail movements. The railway systems of the ESCAP region do not escape this general observation. Each year, accidents at level crossings not only cause the deaths of or serious injuries to many thousands of road users and railway passengers, but also impose a heavy financial burden in terms of interruption of railway and road services and damage to railway and road vehicles and property.

The great majority of these collisions are caused by the negligence, incompetence or incapacity of road vehicle drivers, who by and large operate their vehicles in environments in which safety consciousness is practically non-existent.

Since it is the railway which must bear the responsibility for ensuring that it is protected from the transgressions of road users (despite the fact that in many countries the law gives it priority of passage over road users), it is the railway which also has to shoulder most of the financial burden of providing this protection. Similarly, it is the railway, which has most of the responsibility for educating road users on the safe use of its level crossings.

Notwithstanding these responsibilities, it appears that many of the region’s railways are ill-equipped to be in a position to monitor level crossing safety effectively and to take both corrective and pro-active measures to improve the safety of their level crossing installations.

In view of this and, given the financial burden of accidents on the resources of the operating companies – in most cases government-granted subsidies – ESCAP, with generous financial assistance from the Government of Japan, launched the present study in 1999 with the objective of assisting railway administrations in the ESCAP region to improve railway safety through the provision of practical guidance/methodology to select cost-effective systems for level-crossing protection.

The study outputs were to:

(i) review the present status of level-crossing accidents in the ESCAP region;

(ii) present statistics, indicators, technology and problems relating to the systems adopted by the participating countries for level-crossing protection;

(iii) analyse various alternative systems for level-crossing protection; and

(iv) make recommendations pertaining to the selection of cost-effective protection systems.

1 To accomplish the above the following activities were carried out:

(i) assessment of level crossing safety performance and safety measures in seven selected countries of the region (Bangladesh, India, the Islamic Republic of Iran, the Philippines, the Russian Federation, Thailand and Viet Nam);

(ii) assessment of level crossing safety performance and safety measures in a selection of other countries which are advanced in their railway development and can possibly provide possible “best practice” examples of methods and practices for dealing effectively with the level crossing problem (these countries are: Canada, Belgium, France, Germany, Japan, the Netherlands, the United Kingdom and the United States);

(iii) evaluation of the requirements of a Safety Management Information System which adequately addresses the needs of railway managements for information on level crossing safety performance;

(iv) evaluation of the approaches to the application of Quantitative Risk Analysis (QRA) to establishing priorities for level crossing safety enhancement measures;

(v) explanation of suitable approaches to undertaking Cost Benefit Analysis of investments in level crossing safety enhancement;

(vi) review of the technical attributes of modern, cost effective systems for protection of level crossings as well as the criteria which can and should be applied to the selection of appropriate systems; and

(vii) recommendations of guidelines for adoption by the railway administrations of the region in managing the problem of level crossing safety on their systems.

Outputs (i) and (ii) relating to activities (i) and (ii) are addressed in Chapters 2 and 3 of this report, output (iii) relating to activity (vi) is addressed in Chapter 4 and output (iv) relating to activities (iii), (iv), (v) and (vii) is addressed in Chapters 4 and 5.

Railway safety is a crucial aspect of rail operation the world over, malfunctions resulting in accidents usually get wide media coverage even when the railway is not at fault and give to rail transport among the uninformed public an undeserved image of inefficiency often fuelling calls for immediate reforms. It is therefore hoped that the present study will help the railway administrations concerned strengthen their safety culture and develop the monitoring tools required by modern safety management.

2 CHAPTER 2: SCALE AND SEVERITY OF RAILWAY LEVEL CROSSING ACCIDENT PROBLEM IN SELECTED COUNTRIES OF THE REGION

2.1 General ! T>21! <>+G6(*! 1:*.(71! 6>(! ,(.(,! <*0112)3! 1+5(67! G*0H,(;! 2)! *(,+620)! 60! 6>(! 0.(*+,,! *+2,A+7! 1+5(67! G*0H,(;! 2)! <(*6+2)! <0:)6*2(1! 05! 6>(! @12+_S+<252(! <0:)6*2(1!50*!A>2<>!,(.(,!<*0112)3!1+5(67!9+6+!A(*(!0H6+2)(9!+*(!B!Q+)3,+9(1>R!8)92+R! 81,+;22,2GG2)(1R! C:112+)! M(9(*+620)R! T>+2,+)9R! +)9! O2(6! P+;#!! Y(6+2,(9!9+6+!A(*(!*(E:(16(9!+)9!0H6+2)(9!5*0;!8)92+R!6>(!81,+;2(! C:112+)! M(9(*+620)! +)9! O2(6! P+;! A>2,(! 6>(! 9+6+! *(E:(16(9! +)9! 0H6+2)(9! 5*0;! Q+)3,+9(1>R!S>2,2GG2)(1!+)9!T>+2,+)9!A(*(!05!+!;0*(!3()(*+,!)+6:*(#! ! [+\0*!5+<60*1!2)<,:9(9!2)!6>(!+)+,7121!50*!2)92.29:+,!<0:)6*2(1!2)<,:9(B! ! K2L! Level crossing safety record!d!6*()9!9(6+2,1!50*!+H10,:6(!):;H(*1!+)9! *+6(1!G(*!;2,,20)!6*+2)_Z;!05!,(.(,!<*0112)3!+<<29()61R!5+6+,262(1R!2)\:*2(1! +)9!KA>(*(!G0112H,(L!G*0G(*67!9+;+3(f!! ! K22L! Level crossing characteristics and effectiveness – 9(6+2,1! +)9! (55(<62.()(11! 05! 6>(! 67G(1! 05! ,(.(,! <*0112)31! +)9! ,(.(,! <*0112)3! G*06(<620)!1716(;1!2)!0G(*+620)R!+)9!G,+))(9!50*!5:6:*(!0G(*+620)f! ! K222L! Administration of railway safety regulations d! *(1G0)12H2,267! 50*! ()50*<(;()6!05!1+5(67!K2)<,:92)3!,(.(,!<*0112)3!1+5(67L!*(3:,+620)1!+)9! 50*!2).(1623+620)!05!+<<29()61f! !!! K2.L! Techniques used for evaluation of level crossing safety improvements d! 6(<>)2<+,! +)9! 52)+)<2+,! K2)<,:92)3! E:+)6252(9! *21Z! +)+,7121R! A>(*(! +GG,2<+H,(Lf! ! K.L! Initiatives taken for level crossing safety improvement in recent!years – 6(<>)2<+,! +)9! )0)_6(<>)2<+,! K2)<,:92)3! G(9(16*2+)g;060*! .(>2<,(! 9*2.(*!(9:<+620)Lf!+)9! ! K.2L! Impediments to safety improvement at level crossings.

2.2 Level Crossing Safety in India

2.2.1 Summary

T>(!8)92+)!C+2,A+7!)(6A0*Z!A26>!+!*0:6(!,()36>!05!F&R=ID!Z;!>+1!+!606+,!05! =JR==D! ,(.(,! <*0112)31R! 0*! +)! +.(*+3(! 05! 0)(! (.(*7! $#D! Z2,0;(6*(1#! ! e5! 6>21! 606+,R! $FR$%&!<*0112)31!+*(!;+))(9!A26>!10;(!50*;!05!H+**2(*!G*06(<620)!5+<2)3!*0+9!:1(*1R! &JRD&N! +*(! 0G()! <*0112)31! A26>! 52V(9! *0+9! A+*)2)3! 123)1R! I=N! +*(! *0+9! <*0112)31! +9\+<()6!60!<+)+,1!A26>0:6!H+**2(*!G*06(<620)R!H:6!A26>!*0+9!A+*)2)3!123)1R!+)9!&RN%?! +*(! 12;G,(! 0G()! <*0112)31! A26>! )(26>(*! H+**2(*! G*06(<620)! )0*! 52V(9! *0+9! A+*)2)3! 123)1#! !

! %! ! 8)! $II?gINR! ,(.(,! <*0112)3! +<<29()61! <0)1626:6(9! FD! 0:6! 05! +! 606+,! 05! =&J! +<<29()61!K0*!$D!G(*!<()6L!05!+,,!67G(1!0)!6>(!8)92+)!C+2,A+7!)(6A0*Z#!!h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g0*!*+2,!+)9!)06!60! <0)16*:<6!+)7!;0*(!<*0112)31!50*!:);+))(9!0G(*+620)#!4:H\(<6!60!6>(!+.+2,+H2,267!05! 5:)91R! ,(.(,! <*0112)31! A>2<>! >+.(! *(+<>(9! +! 6*+5522<,(! ;0.(;()61L! 05! $JJRJJJ! G(*! 9+7! 0*! ;0*(! +*(! H(2)3! *(G,+<(9! H7! 6>(! <0)16*:<620)!05!*0+9!0.(*!0*!:)9(*_G+11(1#!!h0A(.(*R!6>(1(!+*(!.(*7!<016,7!+)9!0),7! DJ! G(*! <()6! 05! 6>(! <016! 05! 6>(2*! <0)16*:<620)! 21! H(2)3! 5:)9(9! 92*(<6,7! H7! 6>(! 16+6(! 30.(*);()6!*0+9!+:6>0*262(1#! ! c>2,(! 6>(! 8)92+)! C+2,A+71! >+.(! <0)6*2H:6(9! 60! ;060*! .(>2<,(! 9*2.(*! +)9! G(9(16*2+)! (9:<+620)! G*03*+;;(1R! 26! 21! <,(+*! 6>+6! 6>(1(! >+.(! >+9! ,2;26(9! 2;G+<6! d! G(*>+G1!+!*(5,(<620)!05!+!,++6! 6>(! 8)92+)! C+2,A+71! A2,,! >+.(! 60! (;H*+<(! +! 5:)9+;()6+,! G0,2<7! <>+)3(! 2)! *(,+620)! 60! ,(.(,! <*0112)3! 1+5(67! d! 0)(! A>2<>! ;23>6! 2).0,.(!G*0.2120)!05!+:60;+626g+:92H,(!A+*)2)3!G*06(<620)!+6! 10;(!05!6>(!&=R%$%!:)G*06(<6(9!<*0112)31!6>*0:3>0:6!8)92+#!!c26>!6>21!G0112H2,267!2)! .2(AR! 6>(! 8)92+)! C+2,A+71! +*(! G2,06_6(162)3! 6*+2)! +<6:+6(9! H+**2(*! +)9! *0+9! :1(*! A+*)2)3!1716(;1!50*!1:<>!+GG,2<+620)1#

2.2.2 Level crossing safety record

(a) Accidents

-(.(,! <*0112)3! +<<29()61! <0;G*21(! +! 1;+,,! H:6! 3*0A2)3! G*0G0*620)! 05! +,,! *+2,A+7!+<<29()61!2)!8)92+#!8)!6>(!,+16!7(+*!50*!A>2<>!9+6+!A(*(!+.+2,+H,(!K$II?gINL!6>(! 606+,! ):;H(*! 05! *+2,A+7! +<<29()61! 2)! 8)92+! A+1! =&J! +)9! 6>(! ):;H(*! 05! *(<0*9(9! +<<29()61!+6!,(.(,!<*0112)31!FD#!T>(!6*()9!2)!,(.(,!<*0112)3!+<<29()61!+1!+!G*0G0*620)! 05!+,,!*+2,A+7!+<<29()61!21!1>0A)!2)!T+H,(!&#$#! ! Table 2.1: Significance of and trend in level crossing accidents in India Year Total railway accidents Accidents at level crossings Level crossing (No.) (No.) accident % $INN_NI! D=D! DD! $J#$! $INI_IJ! D=$! =&! !!?#N! $IIJ_I$! D%&! %?! !!?#J! $II$_I&! ?=&! =N! !!F#D! $II&_I%! ?=F! ?$! !!I#D! $II%_I=! F?D! ?$! $J#D!!! $II=_ID! FJ=! ?=! $&#%! $IID_IF! ==J! FI! $D#?! $IIF_I?! =&F! FF! $D#D! $II?_IN! =&J! FD! $D#D! Source: Indian Railways Country Paper.

! =! ! P(+*,7! 6A0! 6>2*91! 05! 6>(! 606+,! ):;H(*! 05! ,(.(,! <*0112)3! +<<29()61! 0<<:*! +6! unmanned ,(.(,! <*0112)31! +)9! 6>21! G*0G0*620)! >+1! H(()! 2)<*(+12)3! 0.(*! 6>(! G+16! 9(<+9(!+1!21!1>0A)!2)!M23:*(!&#$#! ! ! Figure 2.1: Level crossing accidents in India, by type of crossing !

50 dents

40 Unm anned crossings

M anned crossings 30

Num berofacci All crossings

20 Linear (Unm anned

crossings ) 10 Linear (Manned crossings)

Linear (A ll crossings) 0 1988/8 1989/9 1990/9 1991/9 1992/9 1993/9 1994/9 1995/9 1996/9 1997/9 9 0 1 2 3 4 5 6 7 8

U nm anned crossings 36 29 21 39 44 58 54 53 45 49 Manned cro ssings 19 13 16 9 27 13 20 16 21 16 All crossings 55 42 37 48 71 71 74 69 66 65

!! ! Source: Indian Railways Country Paper.

(b) Fatalities ! ! 8)!$IIFgI?R!5+6+,262(1!2)!,(.(,!<*0112)3!+<<29()61!<0;G*21(9!)(+*,7!F%!G(*!<()6! 05!+,,!5+6+,262(1!2)!*+2,A+7!+<<29()61!2)!8)92+R!+1!21!1>0A)!2)!T+H,(!&#&#!@,6>0:3>!6>(! 1>+*(! 05! ,(.(,! <*0112)3! 9(+6>1! 2)! +,,! *+2,A+7! 5+6+,262(1! 9(<,2)(9! 123)252<+)6,7! 2)! 6>(! 50,,0A2)3! 7(+*! K$II?gINLR! 0.(*! 6>(! 9(<+9(! 26! >+1! 1>0A)! +! *212)3! 6*()9! A>2<>! 21! (VG,+2)(9!2)!G+*6!H7!2)<*(+12)3!6*+2)!1G((91!+)9!2)!G+*6!H7!2)<*(+12)3!;060*2a+620)!05! *:*+,! <0;;:)262(1#! T>(*(! 21! (.29()<(! 60! 1:33(16! 6>+6! +! ;+\0*267! 05! ,(.(,! <*0112)3! 5+6+,262(1! 0<<:*! +6! :);+))(9! K+)9! 6>(*(50*(! :)G*06(<6(9L! ,(.(,! <*0112)31! 2)! *:*+,! ,0<+620)1! +)9! 2).0,.(! 1,0A! ;0.2)3! 5+*;! .(>2<,(1! 9*2.()! H7! 2)(VG(*2()<(9! 9*2.(*1#!! T>(*(!+,10!+GG(+*1!60!H(!+!>23>!):;H(*!05!+<<29()61!2).0,.2)3!H:1(1R!which would explain why the relatively low incidence of level crossing accidents results in a disproportionately high number of fatalities.

! D! ! ! Table 2.2: Significance of and trend in level crossing fatalities in India ! Year Total fatalities Fatalities in level crossing Level crossing in railway accidents (No.) accidents (No.) fatality % $INN_NI! &%$! D&! &&#D! $INI_IJ! &%I! D$! &$#%! $IIJ_I$! %&&! ?D! &%#%! $II$_I&! &%D! $J=! ==#%! $II&_I%! &N&! $$F! =$#$! $II%_I=! %FI! $FN! =D#D!!! $II=_ID! &IF! $N?! F&#N! $IID_IF! DNI! $%N! &%#=! $IIF_I?! %D%! &&$! F&#F! $II?_IN! %$F! $%=! =&#=! Source: Indian Railways Country Paper.

c26>!6>(!(V<(G620)!05!6>*((!7(+*1!K$II$gI&R!$II%gI=!+)9!$IIFgI?LR!0.(*!6>(! G+16! 9(<+9(! ,(.(,! <*0112)3! 2)\:*2(1!>+.(! <0;G*21(9! +! *(,+62.(,7! <0)16+)6! G*0G0*620)! K+H0:6!&J!G(*!<()6L!05!+,,!2)\:*2(1!2)!*+2,A+7!+<<29()61!2)!8)92+#! ! Table 2.3: Significance of and trend in level crossing injuries in India

Year Total injuries Injuries in level crossing Level crossing in railway accidents (No.) accidents (No.) injury % $INNgNI! ?%F! $%=! $N#&! $INIgIJ! II&! $I&! $I#=! $IIJgI$! NNN! $?D! $I#?! $II$gI&! NIF! %J&! %%#?! $II&gI%! IJN! &&&! &=#=! $II%gI=! IJF! %$&! %=#=! $II=gID! F?F! $DI! &%#D! $IIDgIF! I%=! $I$! &J#=! $IIFgI?! F$J! &F=! =%#%! $II?gIN! I??! $?I! $N#%!

Source: Indian Railways Country Paper.

(d) Accident, Fatality and Injury Rates

8)! <0;;0)! A26>! +,,! 67G(1! 05! *+2,A+7! +<<29()61R! +<<29()61! +6! ,(.(,! <*0112)31! +)9!6>(!9(+6>1!+)9!2)\:*2(1!6>(7!<+:1(!<+)!H(!(VG*(11(9!2)!6(*;1!05!+!*+6(!G(*!:)26! 05!*+2,A+7!6*+552<#!!T>(!*+2,A+7!6*+55221!G:*G01(!21!6>(! 6*+2)! Z2,0;(6*(! K(VG*(11(9! 2)! 6(*;1! 05! ;2,,20)! 6*+2)! Z2,0;(6*(1! 0)! +! 1716(;_A29(! H+121L#!!T>21!:)26!21!+,10!+!;(+1:*(!05!risk exposure!50*!;060*!.(>2<,(1!:12)3!,(.(,! <*0112)31#! ! M23:*(!&#&!1>0A1!6>(!,(.(,!<*0112)3!+<<29()6R!5+6+,267!+)9!2)\:*7!*+6(1!50*!8)92+! 9:*2)3! 6>(! G+16! 9(<+9(#! ! T>(1(! 2)92<+6(! 16+H2,267! 2)! 6>(! +<<29()6! +)9! 2)\:*7! *+6(1!

! F! ! A>2<>! 2)! 6>(! <+1(! 05! 6>(! 50*;(*! *(;+2)(9! +,;016! <0)16+)6! +6! J#$J! G(*! ;2,,20)! 6*+2)! Z2,0;(6*(1!+)9!2)!6>(!<+1(!05!6>(!,+66(*!5,:<6:+6(9!+*0:)9!+!,0)3!6(*;!*+6(!05!J#%D!G(*! ;2,,20)!6*+2)!Z2,0;(6*(1#!!Q7!<0)6*+16R!6>(!,(.(,!<*0112)3!5+6+,267!*+6(!*01(!1>+*G,7R!5*0;! J#$J! G(*! ;2,,20)! 6*+2)! Z2,0;(6*(1! 2)! $INNgNI! 60! ;0*(! 6>+)! J#%J! G(*! ;2,,20)! 6*+2)! Z2,0;(6*(1!2)!$IIFgI?R!H(50*(!9*0GG2)3!60!J#&J!G(*!;2,,20)!6*+2)!Z2,0;(6*(1!2)!$II?gIN#!! T>(!5+<60*1!;()620)(9!2)!1:H_1(<620)!KHL!+H0.(!+*(!;016,7!*(1G0)12H,(!50*!6>(!*212)3! 6*()9!2)!,(.(,!<*0112)3!5+6+,262(1#! ! ! Figure 2.2: Level crossing accident, fatality and injury rates in India !

J#FJ

J#DJ

J#=J

J#%J

J#&J Ra te (n um b e p r) e r m illio n tra in

-#/#!8)\:*7!C+6(

J#$J -#/ #!@ < <29()6!C+6(

-#/#!M+6+,267!C+6(

J#JJ $INNgNI $INIgIJ $IIJgI$ $II$gI& $II&gI% $II%gI= $II=gID $IIDgIF $IIFgI? $II?gIN

-#/#!8)\:*7!C+6( J#&& J#&? J#&N J#DJ J#%= J#=N J#&= J#&N J#=J J#&N -#/ #!@ < <29()6!C+6( J#JI J#JF J#JF J#JN J#$$ J#$$ J#$$ J#$J J#$J J#$J -#/#!M+6+,267!C+6( J#JI J#J? J#$& J#$? J#$N J#&F J#&N J#&J J#%% J#&$

Source: Indian Railways Country Paper#!!

2.2.3 Level crossing characteristics and effectiveness

(a) General characteristics

T>(!8)92+)!C+2,A+71!)(6A0*Z!<0)6+2)1!6>(!3*(+6(16!):;H(*!05!,(.(,!<*0112)31! 05!+)7!*+2,A+7!1716(;!2)!@12+#!!8)!3()(*+,R!6>(!8C!)(6A0*Z!>+1!52.(!9255(*()6!67G(1!05! ,(.(,! <*0112)31R! 6>(1(! H(2)3B! +! ;+):+,,7! <0)6*0,,(9! 5:,,! A296>! ,2562)3! H+**2(*! 67G(f! +! ;(<>+)2<+,!5:,,!A296>!1A2)32)3!H+**2(*!67G(f!+!52V(9!A+*)2)3!123)!A26>0:6!H+**2(*!67G(f! +)!0G()!67G(!<*0112)3R!A26>0:6!H+**2(*1!0*!A+*)2)3!123)1f!+)9!+!<+66,(!<*0112)3#!!T>(! G0G:,+620)!05!,(.(,!<*0112)31!H7!67G(!0)!6>(!8C!)(6A0*Z!21!32.()!2)!T+H,(!&#=#! !

! ?! ! Table 2.4: Level crossings on the Indian Railways network, by type !! Class of L.C. Type of L.C. No on system Brief description Manned 4G(<2+,! &IF! [+):+,,7!<0)6*0,,(9!5:,,!A296>!,2562)3!H+**2(*#!@,,! <*0112)31! 2)! <+6(30*7! +*(! 123)+,,(9#! C0+9! *(3:,+*,7! 0G()#! /+**2(1! *0+9! 05! ;2)2;:;! ?#D! ;(6*(!A296>#! @! $R=JF! [+):+,,7! <0)6*0,,(9! 5:,,! A296>! ,2562)3! H+**2(*#!! @,,!<*0112)31!2)!<+6(30*7!+*(!123)+,,(9#!C0+9! *(3:,+*,7! 0G()#! /+**2(1! *0+9! 05! ;2)2;:;! D#D! ;(6*(!A296>#! Q! %RNDN! [+):+,,7! <0)6*0,,(9! 5:,,! A296>! ,2562)3! H+**2(*g! ;(<>+)2<+,! 5:,,! A296>! 1A2)32)3! H+**2(*#! $RI$N! <*0112)31! 2)! <+6(30*7! KDJiL! +*(! 123)+,,(9#! C0+9!*(3:,+*,7!<,01(9#! /! $JRDJI! [+):+,,7! <0)6*0,,(9! 5:,,! A296>! ,2562)3! H+**2(*g! ;(<>+)2<+,! 5:,,! A296>! 1A2)32)3! H+**2(*#! $RN?I! <*0112)31! 2)! <+6(30*7! K$NiL! +*(! 123)+,,(9#! C0+9!*(3:,+*,7!<,01(9#! /+)+,! F%! [(<>+)2<+,! 5:,,! A296>! 1A2)32)3! H+**2(*#! C0+9! *(3:,+*,7!<,01(9#! Sub-total, 16,132 ! manned Unmanned /! &J! c+*)2)3! 123)+,#! eG()! <*0112)3! A26>0:6! ! H+**2(*#! &JRDJN! eG()!<*0112)3!A26>0:6!H+**2(*#! /+)+,! I=N! eG()!<*0112)3!A26>0:6!H+**2(*#! Y! &RN%?! eG()!<*0112)3!A26>0:6!H+**2(*!+)9!A26>0:6! <>(

Source: Indian Railways Country Paper.

! 4G(<2+,R!/,+11!@!+)9!/,+11!Q!,(.(,!<*0112)31!(11()62+,,7!>+.(!6>(!1+;(!67G(! 05!(E:2G;()6!H:6!+*(!92162)3:21>+H,(!5*0;!0)(!+)06>(*!2)!6(*;1!05!6>(!67G(1!05!*0+91! 6>(7! <+**7! +1! A(,,! +1! 6>(2*! 9+2,7! *0+9! +)9! *+2,! 6*+552:1R! 4G(<2+,! /,+11! <*0112)31!A>2<>!;016,7!<+**7!*0+91!05!P+620)+,!h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j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k:)0552<2+,l!,(.(,!<*0112)31!0)!6>(!8C! 1716(;! 21! )06! ++6! $FR$%&! 0:6! 05! =JR==D! ,(.(,! <*0112)31! 0)! 6>(! 1716(;! K0*! )(+*,7! =J! G(*! <()6L! +*(! ;+))(9#! ! T>21! >23>! ;+))2)3! *+620! ;+7! ,+*3(,7! (VG,+2)!A>7!6>(!8)92+)!C+2,A+71R!+6!,(+16!0)!6>(!1:*5+<(R!+GG(+*1!60!>+.(!+!*(,+62.(,7! 3009! ,(.(,! <*0112)3! 1+5(67! *(<0*9R! +,6>0:3>! 6>(! E:+,267! 05! 6>(! 9+6+! *(,+62)3! 60! ,(.(,! <*0112)3!+<<29()61!+)9!<+1:+,62(1!>+1!*(<()6,7!H(()!<*262<2a(9!H7!6>(!/0;;21120)(*1! 50*!C+2,A+7!4+5(67!+)9!H7!6>(!C+2,A+7!4+5(67!C(.2(A!/0;;266((#$!!Y:*2)3!0)(!*(<()6! 7(+*R! 10;(! IJ! G(*! <()6! 05! +,,! ,(.(,! <*0112)3! +<<29()61! A(*(! (162;+6(9! 60! >+.(! 0<<:**(9! +6! :);+))(9R! +)9! 6>(*(50*(! :)G*06(<6(9R! ,(.(,! <*0112)31#! ! T>21! <0)6*+161! A26>! 6>(! 126:+620)! 2)! c(16(*)! U:*0G(! A>(*(! H7! 5+*! 6>(! 3*(+6! ;+\0*267! 05! +<<29()61! 0<<:*!+6!,(.(,!<*0112)31!(E:2GG(9!A26>!+:60;+62+G6(*!%L#! ! @1!;+7!H(!0H1(*.(9!2)!T+H,(!&#DR!8C!1+5(67!16+62162<1!2)92<+6(!6>+6!>+,5!05!+,,! +<<29()61!+6!;+))(9!,(.(,!<*0112)31!A(*(!<+:1(9!H7!k0G()!0*!2;G*0G(*,7!<,01(9!0*! 1(<:*(9! 3+6(1l#! ! T>(! 06>(*! ;+2)! 5+<60*1! <0)6*2H:62)3! 60! 6>(1(! +<<29()61! A(*(! )(3,23()<(R!2**(1G0)12H2,267!0*!2)<+G+<267!0)!6>(!G+*6!05!;060*!.(>2<,(!9*2.(*1#!!8)!+)! (550*6! 60! G*(.()6! +<<29()61! <+:1(9! H7! 6>21! 5+<60*R! 8C! >+1! +90G6(9! +! G,+)! 60! (E:2G! $RJF%!,(.(,!<*0112)31!A26>!*(,+7!2)6(*,0(!7(+*!&JJ%#!

Table 2.5: Causes of accidents at manned level crossings,1993-94 to 1997-98

P0!! /+:1(1! I%_I=! I=_ID! ID_IF! IF_I?! I?_IN! T06+,! $! Y:(!60!0G()!0*!2;G*0G(*,7!<,01(9!0*! N! N! $$! I! ?! =%! 1(<:*(9!3+6(1#! &! C0+9!.(>2<,(1!<0;2)3!0.(*!6>(!,(.(,! &! $! J! &! J! D! <*0112)31!A>(*(!H+**2(*1!0)!6>(!06>(*! 129(!>+9!H(()!<,01(9#!! %! C0+9!.(>2<,(1!<*+1>2)3!2)60!6>(!,2562)3!0*! $! =! D! D! =! $I! 1A2)3!67G(!3+6(1!0*!H*(+Z2)3!6>(!,02<,(1!H*(+Z2)3!0*!0G()2)3!6>(! J! $! J! J! $! &! <>+2)1!+6!,(.(,!<*0112)31!<,01(9!H7! <>+2)1#!! D! C0+9!.(>2<,(1!,(56!+6!,(.(,!<*0112)31!0*! J! J! J! J! J! J! 2)5*2)32)3!6*+()! J! J! J! J! J! J! 3+6(!6(,(G>0)(!21!0:6!05!0*9(*#!! N!e6>(*!/+:1(1#!! J!&!J!%!J!D! T06+,! ! $%! &J! $F! &$! $F! NF!

Source: Indian Railways Country Paper.

@)06>(*!:)2E:(!5(+6:*(!05!,(.(,!<*0112)31!0)!6>(!8C!1716(;!21!6>+6!)(+*,7!IJ! G(*!<()6!05!+,,!G*06(<6(9!K2#(#!;+))(9L!,(.(,!<*0112)31R!<0;G*212)3!6>01(!2)!/,+11(1!Q! +)9!/R!+*(!)0*;+,,7!<,01(9!+3+2)16!*0+9!6*+552+6!21R!6>(!H+**2(*1!+*(!0),7!0G()(9! A>()!6>(*(!21!+!123)252<+)6!H:2,9_:G!05!*0+9!6*+552()!<,01(9!+3+2)!A>()!6>(! *0+9! 6*+55221! G*0<(9:*(! 21! *+*(,7! +GG,2(9! 2)! 06>(*! <0:)6*2(1!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! $!Report of the Railway Safety Review Committee 1998, P(A!Y(,>2R!@:3:16!$III#!

! I! ! +)9! ;+7! +,10! G+*6,7! 1(*.(! 60! (VG,+2)! 6>(! *(,+62.(,7! 3009! 1+5(67! G(*50*;+)<(! 05! 8C! ,(.(,!<*0112)31#!! ! @!)(3+62.(!5(+6:*(!05!,(.(,!<*0112)3!0G(*+62)3!G*0<(9:*(1!0)!6>(!8C!1716(;!21! 6>+6!H+**2(*!<,01:*(!62;(!0)!10;(!,(.(,!<*0112)31!21!:):1:+,,7!,0)3#!!@)!2)1G(<620)!05! ,(.(,!<*0112)31!2)!6>(!@3*+!+*(+!9:*2)3!6>(!U4/@S!;21120)!60!8)92+!2)!e<60H(*!$III! *(.(+,(9! 6>+6! +6! 0)(! k/,+11! @l! ,(.(,! <*0112)3! 6>(! ;+V2;:;! 62;(! 05! <,01:*(! 05! 6>(! <*0112)3!H+**2(*1!A+1!N!;2):6(1R!A26>!+)!+.(*+3(!05!D!;2):6(1#!!4:<>!<,01:*(!62;(1! +*(! ;:<>! ,0)3(*! 6>+)! 6>01(! A>2<>! A0:,9! )0*;+,,7! H(! 60,(*+6(9! H7! *0+9! :1(*1! +)9! <0:,9! A(,,! *(1:,6! 2)! H+**2(*! H*(+Z6>*0:3>1! H7! ;060*! .(>2<,(1! +)9! G(9(16*2+)1#!! UV<(112.(,7!,0)3!H+**2(*!<,01:*(!62;(1!6()9!60!H(!+!5(+6:*(!05!6>(!@H10,:6(!Q,0+6! 6>(1(! 1716(;1! *(E:2*(! H+**2(*1! 60! H(! <,01(9!2;;(92+6(,7!+56(*!+!6*+2)j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b) Characteristics by zonal railway ! T>(! .+16)(11! 05! 6>(! <0:)6*7! +)9! 261! *+2,A+7! )(6A0*Z! >+1! ;+9(! *(320)+,! +:60)0;7!2)!6>(!;+)+3(;()6!05!6>21!)(6A0*Z!(11()62+,#!!/0)1(E:()6,7R!6>(!)(6A0*Z! 21! 92.29(9! 2)60! )2)(! 0G(*+62)3! *(320)1! 0*! a0)(1R! (+<>! 0)(! >+.2)3! <0;G,(6(! <0)6*0,! 0.(*! +,,! +1G(<61! 05! *+2,A+7! 0G(*+620)1! 0)! 261! 6(**260*7R! 2)<,:92)3! 1+5(67#! ! T>(! <>+*+<6(*2162<1!+)9!(55(<62.()(11!05!6>(!,(.(,!<*0112)3!1716(;1!2)!0G(*+620)!0)!(+<>! a0)+,!*+2,A+7!;+7!H(!3+:3(9!5*0;!T+H,(!&#F!H(,0A#! ! 86! ;+7! H(! 0H1(*.(9! 5*0;! 6>21! 6+H,(! 6>+6! +<<29()6! 0<<:**()<(1! +*(! ;:<>! 3*(+6(*!0)!6>(!40:6>(*)!C+2,A+7!6>+)!0)!+)7!06>(*!a0)+,!*+2,A+7R!7(6!6>(!40:6>(*)! C+2,A+7!21!)06!123)252<+)6,7!921+9.+)6+3(9!2)!6(*;1!05!>+.2)3!+!>23>(*!G*0G0*620)!05! :);+))(9! ,(.(,! <*0112)31! 0*! +! ,0A(*! G*0G0*620)! 05! 2)6(*,0+)! +)7!06>(*!a0)+,!*+2,A+7#!!T>(!(VG,+)+620)!05!6>21!9255(*()<(!;23>6!,2(!2)!6>(!.0,:;(! +)9!<0;G012620)!05!6>(!6*+55221!*+2,A+7#! !

! $J! ! ! Table 2.6: Level crossing characteristics and performance, by zonal railway ! m0)+,!C+2,A+7! P0!05! S*0G0*620)! P0#!05! S*0G0*620)! @<<29()61! @<<29()61! @<<29()61!+6! -(.(,! 05! :);+))(9! 05! +6!-(.(,! +6!-#/#g! -#/#g$JJJ! /*0112)31! 8)6(*,0(*)!C#!! FR?=N! $N! %RD$?! D&! ?D! $$#$$! &$#%&! P0*6>!U+16(*)!C#! =RJ%N! !!?! &RDND! F=! =&! $J#=J! $F#&=! P0*6>(+16!M*0)62(*!C#! $RI=%! $%! $R&=?! F=! $$! D#FF! N#N&! 40:6>(*)!C#! =R=N=! $I! &R&IJ! D$! ?%! $F#&N! %$#NN! 40:6>!/()6*+,!C#! !%R==%! $?! $RI=?! D?! =&! $&#&J! &$#D?! 40:6>!U+16(*)!C#! =R%%N! $=! %R%I=! ?N! &D! D#?F! ?#%?! c(16(*)!C#! !?RJIN! $J! =R$&N! DN! =I! F#IJ! $$#N?! T06+,! %?R=N$n! $D! &JR%NI! D=! %=D! I#&J! $F#I&! !! Source: Indian Railways Country Paper. * Note that this total does not include cattle crossings (unlike the total shown in Table 2.4). ! ! 2.2.4 Administration of railway safety regulations: role of the CRS

T>(!8)92+)!C+2,A+71!@<6!+1123)1!*(1G0)12H2,267!50*!+)7!+<<29()6!0<<:**2)3!+6! :);+))(9!,(.(,!<*0112)31!60!6>(!*0+9!:1(*#!!T>21!21!+,10!+1!G(*!6>(!G*0.2120)1!05!6>(! [060*! O(>2<,(! @<61! 211:(9! H7! 6>(! 46+6(! '0.(*);()61#! ! 8C! >+1! 6*+92620)+,,7! )06! <0)129(*(9!+)7!5:)9+;()6+,!G0,2<7!<>+)3(1!A26>!*(3+*9!60!:);+))(9!,(.(,!<*0112)31! A>(*(!6>(!9()1267!05!6*+552+1!H(()!,0A#!!TA0!05!6>(!>23>!,(.(,!C+2,!@<<29()61!8)E:2*7! /0;;266((1R!)+;(,7R!6>(!X:)a*:!/0;;266((!+)9!c+)<>00!/0;;266((R!>+.(!2)!6>(! 7(+*1! $IF&! +)9! $IFN! *(1G(<62.(,7R! )06! *(<0;;()9(9! +)7! 5:)9+;()6+,! G0,2<7! <>+)3(1!+)9!>+.(!+,10!)06!*(<0;;()9(9!6>+6!8C!6+Z(1!0.(*!*(1G0)12H2,267#! ! h0A(.(*R!+!1716(;!50*!2)9(G()9()6!2).(1623+620)!05!*+2,A+7!+<<29()6!>+1!H(()! +90G6(9! 2)! 8)92+#! ! T>21! 1716(;! 2).0,.(1! 6>(! (16+H,21>;()6! 05! +)! 0552<(! 05! /0;;21120)(*!05!C+2,A+7!4+5(67!K/C4L!50*!(+<>!a0)+,!*+2,A+7#!!T>(!/C4!0G(*+6(1! 2)9(G()9()6,7!05!6>(!*+2,A+7!0*3+)2a+620)!+)9!+<6:+,,7!*(G0*61!60!6>(![2)216(*!05!/2.2,! @.2+620)#! ! 8)! (11()<(R! 6>(! 5:)<620)1! 05! 6>(! /C4! +*(! 12;2,+*! 60! 6>01(! 05! 6>(! C+2,A+7! 8)1G(<60*+6(! 05! 6>(! h(+,6>! +)9! 4+5(67! UV(<:62.(! 2)! 6>(! W)26(9! X2)390;! 2)! 6>+6! 6>(! G016! G*0.29(1! +)! 2)9(G()9()6! 10:*<(! 05! 2)E:2*7! +)9! +9.2<(! <0)<(*)2)3! +,,! *+2,A+7! 1+5(67!;+66(*1#!T>(!/C4!>+1!6>*((!;+2)!5:)<620)1R!)+;(,7B! ! K2L! 2)1G(<620)!+)9!0G(*+620)+,!<(*6252<+620)!05!)(A!*+2,A+7!,2)(1f! K22L! 0G(*+620)+,!<(*6252<+620)!05!+,,!)(A!;062.(!G0A(*!+)9!*0,,2)3!160(! ,+16! 05! 6>(1(! 5:)<620)1! <0;G*21(1! IJ! G(*! <()6! 05! 6>(! A0*Z,0+9! 05! 6>(! /C4j1#! 8)! 3()(*+,R! 6>(! /C4! A2,,! 2).(1623+6(! +)! +<<29()6! 25! 26! 2).0,.(1! 5+6+,262(1R! G*0G(*67!9+;+3(!3*(+6(*!6>+)!&#D!;2,,20)!*:G((1!K0*!+GG*0V2;+6(,7!W4o!D?RJJJLR!0*!25! 6>(! 2)6(**:G620)! 60! 6*+552+)! &=! >0:*1#! T>(! 9(<2120)! +1! 60! A>(6>(*! 60! <0)9:<6! +)! 2)E:2*7! *(161! A26>! 6>(! /C4! A>0! ;+7! 9(<29(! 60! 9(,(3+6(! +)! 2)E:2*7! 60!

! $$! ! *+2,A+7! 0552<(*1#! 85! +! \:92<2+,! 2)E:2*7! 21! 1:H1(E:()6,7! 0*9(*(9R! 6>(! /C4! 21! 0H,23(9! 60! 1:1G()9!>21!0A)!2)E:2*7#! ! c>2,(!6>(!/C4!>+1!6>(!G0A(*!60!<0)9:<6!+)!2)E:2*7R!60!A*26(!+!*(G0*6!+)9!60! ;+Z(! *(<0;;()9+620)1! 0)! (+<>! +<<29()6! 2).(1623+6(9R! 6>(! (V(<:62.(! +:6>0*267! 50*! 1+5(67! *(3:,+620)! *(129(1! A26>! 6>(! 0G(*+620)+,! ;+)+3(;()61! 05! (+<>! a0)+,! *+2,A+7#! T>:1R!6>(1(!;+)+3(;()61!;+7!9(<29(!60!+<<(G6!6>(!*(<0;;()9+620)1!05!6>(!/C4! (26>(*!2)!5:,,!0*!2)!G+*6R!0*!+,6(*)+62.(,7!60!*(\(<6!6>(;!<0;G,(6(,7#!8)!G*+<62<(R!>0A(.(*R! 6>(!/C4!A0*Z1!<,01(,7!A26>!6>(!UV(<:62.(!Y2*(<60*!4+5(67!+6!6>(!,(.(,!05!6>(!C+2,A+7! Q0+*9!+)9!A26>!/>2(5!4+5(67!e552<(*1!+6!6>(!,(.(,!05!6>(!a0)+,!*+2,A+71#!! ! Y21<:1120)1!A26>!6>(!/C4!+66+<>(9!60!6>(!P0*6>(*)!C+2,A+7!2)92<+6(9!6>+6!6>(! *0,(! 05! 6>(! /C4! >+1! H(()! (55(<62.(! 2)! 29()62572)3! +! ):;H(*! 05! G*0H,(;1! *(,+6(9! 1G(<252<+,,7!60!,(.(,!<*0112)3!1+5(67#!T>(1(!2)<,:9(B! ! K2L! +! ,+(*(! K26! A+1! (162;+6(9!6>+6!2)!6>(!P0*6>(*)!C+2,A+7!6>(1(!+;0:)6(9!60!+H0:6!D_$J! G(*!9+7Lf! ! K22L! G00*! ;+2)6()+)<(! H7! 6>(! *+2,A+71! 05! 6>(! *0+9! +GG*0+<>(1! 60! ,(.(,! <*0112)31! <+**2(1! A26>! 26! 6>(! *21Z! 05! .(>2<,(1! H(2)3! 3*0:)9(9! 0)! <*0112)31! +)9! 1:H1(E:()6,7! H(2)3! 16*:! +<<29()61! A(*(!<0)129(*(9!60!H(!.(*7!5*(E:()6!0)!6>(!P0*6>(*)!C+2,A+7Lf! ! K222L! 6>(! 2)+9(E:+<7! 05! ;+):+,,7! 0G(*+6(9! 1A2)3! 3+6(1! 0)! 90:H,(! 6*+(!62;(!6+Z()!60!<,01(!6>(1(!3+6(1!*0+9!:1(*1!<+)!()6(*! 6>(!<*0112)3!5*0;!6>(!k0G()!129(l!+)9!*21Z!H(2)3!<+:3>6!2)!6>(!;299,(Lf! +)9! ! K2.L! G00*! 6*+2)2)3! +)9! ,+(! /C4j1! >+.(! H(()! +<62.(! 2)! G*0;062)3! 6>(! *(<03)2620)! 05! <*0112)3! Z((G(*1! +1! +)! 0<<:G+620)+,! 3*+9(! A26>! +! <+*((*!G+6>!+)9!+!G*0G(*!6*+2)2)3!17,,+H:1L#! ! ! 2.2.5 Level crossing system evaluation techniques ! 4716(;+62(!8)92+)!C+2,A+71#!!8)!3()(*+,R! 6>(! T*+2)! O(>2<,(! W)26! KTOWL! 21! :1(9! +1! 6>(! <*26(*20)! 50*! 29()62572)3! A>2<>! ,(.(,! <*0112)31!A2,,!>+.(!G*20*267!50*!:G3*+92)3#!!T>(!TOW!+1!26!21!Z)0A)!2)!8)92+!21!29()62<+,! 60!6>(!T*+552(*!<0:)6*2(1!2)!6>+6!26!*(1:,61! 5*0;!6>(!;:,62G,2<+620)!05!6>(!9+2,7!*0+9!6*+552(!9+2,7! ):;H(*!05!6*+2)1!G+112)3!6>*0:3>!6>+6!<*0112)3#!!T>(!TOW!<*26(*2+!+GG,2(9!2)!8)92+!+*(! +1!1>0A)!2)!T+H,(!&#?#!

! $&! ! Table 2.7: TVU criteria for level crossing type ! Item Daily traffic density/ traffic movement Type of crossing indicated $! TOW!!!FRJJJ! W);+))(9!,(.(,!<*0112)3! &! FRJJJ!p!TOW!q!$JRJJJ! @,,!:);+))(9!,(.(,!<*0112)31!60!H(! ;+))(9!0)!G*03*+;;(9!H+121! %! $JRJJJ!p!TOW!q!$JJRJJJ! [+))(9!,(.(,!<*0112)31!! =! TOW!"!$JJRJJJ! C0+9!5,70.(*!g!0.(*G+11!

Source: Indian Railways Country Paper. ! ! O212H2,267! 21! +,10! +! <*26(*20)! :1(9! 2)! 0*9(*! 60! 29()6257! 6>01(! unmanned K+)9! >()<(! :)G*06(<6(9L ,(.(,! <*0112)31! A>2<>! +*(! 60! H(! 32.()! G*20*267! 50*! ;+))2)3#! ! @,,! :);+))(9!,(.(,!<*0112)31!+*(!*(E:2*(9!60!>+.(!+!<,(+*!.212H2,267!50*!*0+9!:1(*1!05!FJJ! ;(6*(1!+1!0H1(*.(9!H7!6>(;!+6!D!;(6*(1!5*0;!6>(!<()6*(!05!6>(!*+2,A+7!6*++.2)3! .212H2,267! 60! *0+9g*+2,! 6*+552(! G*(1<*2H(9! 9216+)<(! +*(! <0)129(*(9! >+a+*90:1! +)9! +*(! ;+))(9! H7! 6>(! 8)92+)! C+2,A+71! +6! 261! <016#! ! T>(! <0;H2)(9! TOW! +)9! .212H2,267! <*26(*2+! :1(9! 60! (16+H,21>! G*20*262(1! 50*! ;+))2)3! 05! :)G*06(<6(9!,(.(,!<*0112)31!+*(!1(6!0:6!2)!T+H,(!&#N#!!T>*0:3>0:6!6>(!)(6A0*ZR!+!606+,! 05!=R==I!,(.(,!<*0112)31!>+.(!H(()!29()6252(9!+1!>+.2)3!G*20*267!50*!;+))2)3#! ! Table 2.8: Criteria for manning of unprotected level crossings! ! Priority Description Number on Category! system $! -(.(,!<*0112)31!>+.2)3!;0*(!6>+)!$JRJJJ!TOW! $&%! &! -(.(,!<*0112)31!>+.2)3!;0*(!6>+)!FRJJJ!TOWR!H:6!A>2<>!+*(! ! ! >+a+*90:1!0)!+<<0:)6!05!*(16*2<6(9!.212H2,267! D?!

%! -(.(,!<*0112)31!A>(*(!6*+552+)!FRJJJ!TOW!H:6! ! ! A>(*(!H:1(1!+)9!06>(*!;060*!.(>2<,(1!G,7!*(3:,+*,7#! DI$! =! -(.(,!<*0112)31!A26>!TOW!,(11!6>+)!FRJJJ!+)9!*(16*2<6(9! ! ! .212H2,267R!H:6!A>(*(!;060*!.(>2<,(1!90!)06!G,7! &RD%?! D! -(.(,!<*0112)31!A>(*(!.212H2,267!21!+9(E:+6(!H:6!6*+552

Source: Indian Railways Country Paper.

! @)06>(*!<*26(*20)!:1(9!60!(16+H,21>!G*20*262(1!50*!;+))2)3!05!:)G*06(<6(9!,(.(,! <*0112)31!21!6>(!*(,+62.(!2;G0*6+)<(!05!6>(!*+2,A+7!,2)(!2)!6(*;1!05!6*+552+.(! H(()! 9(.21(9! A26>! 9(1<()92)3! ;+))2)3!G*20*262(1R!5*0;!'*0:G!@!60!'*0:G!U!+1!1>0A)!2)!T+H,(!&#I#!

! $%! ! ! Table 2.9: Measures of the importance of railway lines used to establish level crossing manning priorities! ! '*0:G!@! 4G((91!05!:G!60!$FJZ;g>! '*0:G!Q! 4G((91!05!:G!60!$%JZ;g>! '*0:G!/! 4:H:*H+)!1716(;1!2)!Q0;H+7!+)9!/+,<:66+!! '*0:G!Y_4G(<2+,! T*+55223>!0*!,2Z(,7!60!3*0A!1:H16+)62+,,7!2)!5:6:*(! ! +)9!6>(!1+)<620)(9!1G((9!21!$JJZ;g>!+6!G*(1()6! '*0:G!Y! 4G((9!21!$JJZ;g>!+6!G*(1()6!! '*0:G!U_4G(<2+,! T*+55223>!0*!,2Z(,7!60!3*0A!1:H16+)62+,,7!2)!! ! 5:6:*(!+)9!G*(1()6!1+)<620)(9!1G((9!21!,(11!6>+)!$JJZ;g>!! '*0:G!U! 4(<620)1!+)9!H*+)<>!,2)(1!A26>!+!G*(1()6!1+)<620)(9!1G((9!05! ! ,(11!6>+)!$JJ!Z;g>#!

! Source: Indian Railways Country Paper. ! 2.2.6 Level crossing safety initiatives

(a) Manning of unprotected level crossings

T>(! <:**()6! 52.(_7(+*! G,+)! K<0.(*2)3! 6>(! G(*209! $IIIg&JJJ! 60! &JJ%g&JJ=L! G*0.29(1! 50*! 6>(! G*03*(112.(! <0).(*120)! 05! :);+))(9g:)G*06(<6(9! <*0112)31! 60! ;+))(9gG*06(<6(9!16+6:1#!!Y(G()92)3!:G0)!6>(!+1123)(9!<+6(30*7!05!(+<>!<*0112)3R! 6>21! A2,,! 2).0,.(! 2)16+,,+620)! 05! A+*)2)3! 123)1! 0*! ,23>61! +)9! H00;! H+**2(*1! 05! .+*20:1! 67G(1! +1! A(,,! +1! <0)16*:<620)! 05! +! <*0112)3! +66()9+)6j1! A0*Z16+620)! +6! G*20*2621(9! ,0<+620)1#!!Y(6+2,1!05!6>21!G*03*+;;(!+*(!32.()!2)!T+H,(!&#$J#! ! ! Table 2.10: Annual plan of level crossing conversion to manned status

r(+*! P0!05!,(.(,!<*0112)31! C0:6(!'*0:G! S*20*267!/+6(30*7! G*0G01(9!50*!;+))2)3! $IIIs&JJJ! %I$! @R!Qt/! 8s8O! &JJJs&JJ$! $RJJJ! Y_4G(<2+,! 8s8O! &JJ$s&JJ&! IDJ! U_4G,R!YtU! 8s8O! &JJ&s&JJ%! IF?! U! 8sO! &JJ%s&JJ=! $R$=$! @R!QR!/R!!Y_4G,RYR!U_4G,R!U! O! T06+,! =R==I! ! !

Source: Indian Railways Country Paper. ! ! (b) Other level crossing upgrading measures

8)!+992620)!60!<0).(*120)!05!:)G*06(<6(9!,(.(,!<*0112)31!60!;+))(9!16+6:1R!6>(! 8)92+)!C+2,A+71!>+1!+!G,+)!60!3*+9(!1(G+*+6(!0*!60!*(,+7!2)6(*,0(!;0*(! 9()1(,7!6*+552(! <:**()6! 52.(_7(+*! G,+)! K$IIIg&JJJ_&JJ%g&JJ=LR! 26! 21! G*0G01(9! 60! 2)6(*,02,(! *0+9! :)9(*! 0*! 0.(*_G+11(1! +*(! <:**()6,7! :)9(*! <0)16*:<620)! +6! %%I! ,0<+620)1! 6>*0:3>0:6! 8)92+#! ! eA2)3! 60! 6>(! >23>! <016! 05! 6>(1(! 2)262+62.(1! +)9! K2)! 6>(! <+1(! 05! 3*+9(! 1(G+*+620)L! 60! 6>(! )(<(11267! 05!

! $=! ! 1>+*2)3!6>(!<016!A26>!*0+9!+:6>0*262(1!+)9g0*!G*2.+6(!9(.(,0G(*1R!G*03*(11!>+1!H(()! 1,0A#! ! (c) Road user education

T>(!8)92+)!C+2,A+71!>+1!0),7!+!.(*7!1;+,,!H:93(6!50*!*0+9!:1(*!(9:<+620)!H:6! 90(1! ;+Z(! :1(! 05! 6>(! ;+11! ;(92+! K;+2),7! 6(,(.2120)! +)9! )(A1G+G(*1L! 60! G*0;06(! G:H,2(!)((9!50*!<+:620)!A>()!:12)3!,(.(,!<*0112)31#!!e)(!(55(<62.(! ;(+)1!05!9211(;2)+62)3!6>21!;(11+3(!21!6>(!:1(!05!)062<(!H0+*91!2)!punjayat!K0*!,0<+,! .2,,+3(L! 0552<(1! 60! 921G,+7! 1+5(67! G016(*1#! 42)<(! *(129()61! 05! *:*+,! +*(+1! 6()9! 60! *(3:,+*,7! .2126! 6>(2*! punjayat! 0552<(1R! 6>21! 2)262+62.(! >+1! 6>(! G06()62+,! 60! *(+<>! +! A29(! 1(<620)!05!6>(!<0;;:)267#!!e)(!1:<>!G016(*!:1(9!60!G*0;06(!<+:620)!H7!6>(!G:H,2()!:12)3!,(.(,!<*0112)3!21!1>0A)!>(*(+56(*#! ! !

! $D! ! 2.2.7 Level crossing safety impediments

@G+*6! 5*0;! +! ,+(! ;+2)! 5+<60*1! <0)129(*(9! 60! H(! A0*Z2)3! +3+2)16! +)! 2;G*0.(;()6! 2)! ,(.(,! <*0112)3! 1+5(67!2)!8)92+!+*(B! ! K2L! the lack of priority!32.()!H7!*0+9!+:6>0*262(1!60!2;G*0.2)3!,(.(,!<*0112)3! 1+5(67! K)0! 90:H6! (VG,+2)(9! H7! 6>(! 5+<6! 6>+6! ,(.(,! <*0112)3! +<<29()61! *(G*(1()6! +)! 2)123)252<+)6! G*0G0*620)! 05! +,,! *0+9! 6*+552(! lack of funding! priority! 2)! 6>(! 8)92+)! C+2,A+71! H:93(6! 50*! ,(.(,! <*0112)3!2;G*0.(;()6g:G3*+92)3!K:),2Z(!6>(!126:+620)!A>2<>!+GG,2(1!2)! 06>(*!<0:)6*2(1!05!6>(!*(320)R!,(.(,!<*0112)3!+<<29()61!+<<0:)6!50*!0),7! +! 1;+,,! G*0G0*620)! d! 0),7! $D! G(*! <()6! 2)! $II?gIN! d! 05! +,,! *+2,A+7! +<<29()61!2)!8)92+Lf!! ! K222L! increasing disposable incomes and motorization! 2)! 8)92+R! ,(+92)3! G+*62<:,+*,7! 60! +)! 2)<*(+12)3! 2)<29()<(! 05! ,(.(,! <*0112)3! +<<29()61! 2)! *:*+,! +*(+1! A>(*(! 3()(*+,! ,(.(,1! 05! (9:<+620)! +)9! 1+5(67! +A+*()(11! +*(!G00*f!+)9! ! K2.L! 6>(! predominance of Absolute Block and Tablet systems of safe working! 0)! 6>(! ,(11! 9()1(,7! 6*+552+6! ,()36>7! 9(,+71! 60! *0+9! 6*+552(! 5:6:*(R! +992)3! 60! 6>(! G0112H2,267! 05! +)! 2)<*(+12)3! 2)<29()<(!05!H+**2(*!H*(+Z6>*0:3>1!+6!;+))(9!,(.(,!<*0112)31#! ! ! 2.3 Level Crossing Safety in the Islamic Republic of Iran

2.3.1 Summary

T>(!8*+)2+)!81,+;2!+!606+,! ,()36>! 05! DRIID! Z2,0;(6*(1#! ! T>21! )(6A0*Z! 21! 1:H92.29(9! 2)60! 52.(! ;+2)! *0:6(1! +)9! 6>2*6(()!0G(*+62)3!*(320)1!0*!9216*2<61#!!c26>2)!6>21!)(6A0*Z!6>(*(!+*(!%==!0552<2+,!,(.(,! <*0112)31!05!+,,!67G(1!+)9!?=!:)0552<2+,!,(.(,!<*0112)31!32.2)3!+!606+,!05!=$NR!0*!*0:3>,7! 0)(!<*0112)3!50*!(.(*7!$=#%!*0:6(_Z;!0)!+.(*+3(#!!T>:1R!0.(*+,,R!6>(!)(6A0*Z!<+))06! H(!1+29!60!>+.(!+!G+*62<:,+*,7!9()1(!<0)<()6*+620)!05!,(.(,!<*0112)31#! ! T>(!*(320)!A26>!6>(!3*(+6(16!,(.(,!<*0112)3!9()1267!21!6>(!4>0;+,!*(320)!60!6>(! (+16!05!T(>*+)!A26>!%N$!*0:6(_Z;!+)9!ND!,(.(,!<*0112)31R!0*!0)(!50*!(.(*7!=#D!*0:6(_ Z;#!!@6!6>(!06>(*!(V6*(;(!21!6>(!]0)0H(1>+*3!*(320)!2)!6>(!10:6>(+16!05!6>(!<0:)6*7R! A26>!FND!*0:6(_Z;!+)9!0),7!$=!,(.(,!<*0112)31R!0*!0)(!50*!(.(*7!=I!*0:6(_Z;#! ! e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

! $F! ! 9(;0)16*+62)3!6>+6!6>(!81,+;2+1!0)(!05!6>(!H(66(*!,(.(,!<*0112)3! 1+5(67!*(<0*91!2)!@12+!+)9!0)(!A>2<>!21!2)9((9!1:G(*20*!60!6>+6!05!;0*(!6>+)!+!5(A! 9(.(,0G(9!<0:)6*2(1#! ! T>(!8*+)2+)!81,+;2+1!+!G0,2<7!60!(,2;2)+6(!+1!;+)7!05! 6>(!,(.(,!<*0112)31!+1!G0112H,(!6>*0:3>!grade separation. h0A(.(*R +,6>0:3>!+H0:6! =?! ,(.(,! <*0112)31! >+.(! H(()! )0;2)+6(9! 50*! *(G,+<(;()6! H7! *0+9! 0.(*G+11(1R! 6>(! <0)16*:<620)! <016! 05! 6>(1(! 0.(*G+11(1! >+1! 10! 5+*! G*0.()! G*0>2H262.(R! +)9! 06>(*! <>(+G(*! 50*;1! 05! 1+5(67! ()>+)<(;()6! >+.(! H(()! G:*1:(9#! ! T>(1(! >+.(! 2)<,:9(9B! G*0.2120)!05!<(;()6!H+**2(*1!+,0)3!*+2,A+7!,2)(1!K(1G(<2+,,7!2)!6>(!(V26!+*(+1!05!<262(1LR! 2)! 0*9(*! 60! G*(.()6! *0+9! :1(*1! 5*0;! <*0112)3! 6>(! 6*+(*! 6>+)! 6>(! 0552<2+,,7! 9(123)+6(9! ,(.(,! <*0112)31f! 2)16+,,+620)! 05! (,(<6*2<+,,7! 0G(*+6(9! H+**2(*1! 60! *(G,+<(! ;(<>+)2<+,!H+**2(*1R!6>(*(H7!*(9:<2)3!6>(!62;(!50*!<,01:*(!05!<*0112)31!60!*0+9!6*+552(*! *0+9! A+*)2)3! 9(.2<(1! A26>! 16+6(_05_6>(! +*6! +:92H,(! +)9! .212H,(!A+*)2)3!1716(;1#!

2.3.2 Level crossing safety record

(a) Accidents

S*20*!60!$II?R!9+6+!0)!*+2,A+7!+<<29()61!2)!6>(!81,+;2!*(320)!<0,,(<6(9!+<<29()6!2)50*;+620)!2)!+!50*;!A>2<>!1:26(9!261! 0A)!*(E:2*(;()61#!!h0A(.(*R!9+6+!+GG(+*!60!H(!+.+2,+H,(!0)!+!<0)1216()6!H+121!0.(*! 6>(!G(*209!$II$_$IIN#! ! e.(*!6>21!G(*209R!+<<29()61!+6!,(.(,!<*0112)31!+GG(+*(9!60!*(G*(1()6!0),7!F_N! G(*!<()6!05!+,,!*+2,A+7!+<<29()61#!!@1!;+7!H(!0H1(*.(9!2)!M23:*(!&#%R!6>(!):;H(*!05! ,(.(,!<*0112)3!+<<29()61!9:*2)3!6>21!G(*209!5(,,!5*0;!=&!2)!$II$!60!%J!2)!$IINR!+)9!6>(! +<<29()6!*+6(!5*0;!$#F!60!J#F=!+<<29()61!50*!(.(*7!;2,,20)!6*+2)_Z2,0;(6*(1!*:)#! ! Figure 2.3: Level crossing accidents in the Islamic Republic of Iran

=D $#NJ

=J $#FJ

%D $#=J t ill. %J $#&J d

&D $#JJ

&J J#NJ

No. L.C. acci L.C. No. $D J#FJ

$J J#=J m per No.accidents

D J#&J

J J#JJ $II$ $II& $II% $II= $IID $IIF $II? $IIN - #/ #!+ < < 29 ( ) 61 - #/ #!+ < < 29 ( ) 6!*+ 6( -#/#!+<<29()61 =& =J =J &F %% %= %? %J -2)(+*!K-#/#!+<<29()6!*+6(L -#/#!+<<29()6!*+6( $#FJ $#=? $#%% J#NF J#N% J#?& J#?% J#F= -2)(+*!K-#/#!+<<29()61L

Source: Country Paper for Islamic Republic of Iran.

! $?! ! Q7! 5+*! 6>(! 3*(+6(16! G*0G0*620)! KNJ_IJ! G(*! <()6L! 05! 6>(! 606+,! ):;H(*! 05! ,(.(,! <*0112)3! +<<29()61! 0)! 6>(! 1716(;! 0<<:**(9! +6! :)G*06(<6(9! ,(.(,! <*0112)31R! +1! 21! 1>0A)!2)!M23:*(!&#=#!

Figure 2.4: Number of accidents by type of level crossing in the Islamic Republic of Iran

%D e %J

$D Num ber of accid of Num ber

J $II$ $II& $II% $II= $IID $IIF $II? $IIN

@<<29()61!+6 N?$JD==%& G*06(<6(9!-#/#1 @<<29()61!+6 %= %% %J &$ &I %J %= &N :)G*06(<6(9!-#/#u1

! Source: Country Paper for Islamic Republic of Iran.

(b) Fatalities and injuries

W),2Z(! +<<29()6! 0<<:**()<(1R! 6>(! ):;H(*! 05! G(*10)1! Z2,,(9! K1((! M23:*(! &#DL! +)9!2)\:*(9!K1((!M23:*(!&#FL!2)!,(.(,!<*0112)3!+<<29()61!>+.(!H(()!0)!+!*212)3!6*()9! 0.(*!6>(!G+16!?_N!7(+*1R!9(1G26(!9*+;+62(1(!16+62162<1!9:*2)3!6>(! ,+16!6A0!7(+*1!05!6>(!*(.2(A!G(*209!K$II?!+)9!$IINL#!!h0A(.(*R!6>(!5+6+,267!+)9!2)\:*7! *+6(1!<0**(1G0)92)3!A26>!6>(!+H10,:6(!16+62162<1!>+.(!H(()!9(<,2)2)3!16(+92,7!+)9!+6!!!!!!!!!!!!!!! J#$$! G(*10)1! Z2,,(9! +)9! J#$?! G(*10)1! 2)\:*(9! G(*! ;2,,20)! 6*+2)_Z;! 2)! $IIN! <0;G+*(! E:26(!5+.0:*+H,7!A26>!;+)7!A(16(*)!<0:)6*2(1#!

! $N! ! Figure 2.5: Level crossing fatalities in the Islamic Republic of Iran

$= J#%J

$& J#&D a

$J J#&J

J#$D

F N o . L .C . fa ta lit J#$J = N o .L .C .fa ta litie s p e r m ill.tr J#JD &

J J#JJ $II$ $II& $II% $II= $IID $IIF $II? $IIN -#/#!5+6+,262(1 -#/#!5+6+,267!*+6( -#/#!5+6+,262(1 D D ? F I$&ND -2)(+*!K-#/#!5+6+,267!*+6(L -#/#!5+6+,267!*+6( J#$I J#$N J#&% J#&J J#&% J#&F J#$F J#$$ -2)(+*!K-#/#!5+6+,262(1L

Source: Country Paper for Islamic Republic of Iran.

Figure 2.6: Level crossing injuries in the Islamic Republic of Iran

?J $#=J

FJ $#&J a

DJ $#JJ

=J J#NJ

%J J#FJ N o . L .C . in ju r

&J J#=J N o .L .C . in ju r ie s p e r m ill.tr

$J J#&J

J J#JJ $II$ $II& $II% $II= $IID $IIF $II? $IIN - #/ #2) \: * 2( 1 -#/#!2)\:*7!*+6( - #/ #2) \: * 2( 1 $D= $F$=$FFJ$$N -2)(+*!K-#/#!2)\:*7!*+6(L -#/#!2)\:*7!*+6( J#D? J#$D J#D% J#=F J#=J $#&N J#&& J#$? -2)(+*!K-#/#2)\:*2(1L ! Source: Country Paper for Islamic Republic of Iran. ! ! 2.3.3 Level crossing characteristics and effectiveness

S*06(<6(9! ,(.(,! <*0112)31! 0)! 6>(! 1716(;! 05! 6>(! 8*+)2+)! 81,+;2!;(<>+)2<+,,7!0G(*+6(9!H+**2(*1#!!T>(1(!+*(!05! 6A0!67G(1B!5:,,!A296>!+)9!>+,5!A296>!,2562)3!H+**2(*1!K1((!T+H,(!&#$$L#! ! 8)!6(*;1!05!6>(!,(.(,!05!G*06(<620)!6>(7!+550*9R!6>(1(!H+**2(*!2)16+,,+620)1!<+)!H(! 1+29!60!H(!1+5(R!12)<(!+<<29()61!0<<:**2)3!+6!G*06(<6(9!,(.(,!<*0112)31!+*(!<,(+*,7!.(*7!

! $I! ! 5(A!2)!):;H(*!K0),7!&!2)!$IINL#!!h0A(.(*R!<0)<(*)!A+1!*+21(9!2)!6>(!<0:)6*7!*(G0*6! 6>+6! ;(<>+)2<+,! H+**2(*1! ;+7! H(! 2)<0;G+62H,(! A26>! <*0112)3! <,01:*(! 62;(1! 05! 1>0*6! 9:*+620)R! 12)<(! 16+55! *(E:2*(! ;0*(! 62;(! 60! 0G(*+6(! ;+):+,,7! 9(G,07(9! H+**2(*1! 6>+)! 6>(7!;23>6!25!6>(!H+**2(*1!A(*(!(,(<6*2<+,,7!9(G,07(9#!!P0!2)50*;+620)!A+1!G*0.29(9!0)! +.(*+3(!<*0112)3!<,01:*(!62;(!50*!6>(!1716(;#! !

Table 2.11: Level crossing installations by type, Islamic Republic of Iran

Class Type Brief Description Number Associated Associated on Rail Road system Signalling Signalling [+):+,! 42)3,(! Q+**2(*! [(<>+)2<+,! 5:,,! &JJ! M2V(9!*+2,!,(.(,! M2V(9!*0+9! K5:,,!A296>L! A296>!,2562)3!H+**2(*! <*0112)3! ,(.(,!<*0112)3! A+*)2)3!H0+*9! A+*)2)3!H0+*9f! 5,+1>2)3!*(9! ,23>6!+3+2)16! *0+9!:1(*1#! [+):+,!! Y0:H,(! [(<>+)2<+,! >+,5! !!$?! M2V(9!*+2,!,(.(,! M2V(9!*0+9! Q+**2(*1! K>+,5_ A296>!,2562)3!H+**2(*! <*0112)3! ,(.(,!<*0112)3! A296>Ln! A+*)2)3!H0+*9! A+*)2)3!H0+*9f! 5,+1>2)3!*(9! ,23>6!+3+2)16! *0+9!:1(*1#! W)G*06(<6(9! !!!!!!!!!_! eG()!<*0112)3! $&?! P0)(! P0)(! W)0552<2+,!! !!!!!!!!!_! eG()!<*0112)3! !!?=! P0)(! P0)(! T06+,! ! ! =$N! ! ! ! Source: Country Paper for Islamic Republic of Iran. * T>(1(! +*(! :)9(*16009! 60! H(! 05! 6>(! U:*0G(+)! 9(123)! A>(*(H7! >+,5! H+**2(*1! +*(! G,+<(9!!!!!!!!!!!!!!!!!! +,6(*)+6(,7!+<*011!6>(!*0+9!<+**2+3(A+7!0)!(26>(*!129(!05!6>(!6*+

2.3.4 Administration of railway safety regulations

8)!6>(!+H1()<(!05!+)7!2)92<+620)!60!6>(!<0)6*+*7!2)!6>(!<0:)6*7!G+G(*R!26!A+1! +11:;(9! 6>+6! 6>(! 8*+)2+)! 81,+;2+1! 10,(! *(1G0)12H2,267! 50*! 6>(! +9;2)216*+620)!05!+,,!1+5(67!*(3:,+620)1!0)!261!1716(;#! ! 8)! 6(*;1! 05! 261! ,2+H2,267! 50*! >:;+)! <+1:+,62(1! +)9! G*0G(*67! 9+;+3(! *(1:,62)3! 5*0;!,(.(,!<*0112)3!+<<29()61R!6>(!*+2,A+7!21!)06!,2+H,(!50*!<0;G()1+620)!:),(11!1:<>! +<<29()61! 0<<:*! +6! G*06(<6(9! ,(.(,! <*0112)31! and 6>(! *+2,A+7! >+1! H(()! 9((;(9! *(1G0)12H,(!H7!6>(!<0:*61!1716(;!+1!+!*(1:,6!05!)(3,23()<(!0)!6>(!G+*6!05!261!16+55!0*!05! 5+2,:*(!05!261!(E:2G;()6#!8)!1:<>!<+1(1R!6>(!*+2,A+7!21!*(E:2*(9!60!G+7!<0;G()1+620)!05! :G!60!W4o!$JRJJJ!50*!(+<>!G(*10)!Z2,,(9!0*!2)\:*(9R!6>21!+;0:)6!H(2)3!.+*2(9!(.(*7! 7(+*! 2)! +<<0*9+)<(! A26>! 81,+;2! ;016! *+2,A+71R! 6>(! 8*+)2+)! 81,+;2+1!+H10,:6(!G*20*267!60!0G(*+6(!A26>2)!261!0A)!*23>6_05_A+7R! A>2<>!21!9(52)(9!+1!6>(!2)6(*.+,!H(6A(()!H0:)9+*2(1!52V(9!+6!N#D!;(6*(1!0)!(26>(*!129(! 05!6>(!6*+!0)!6>21!*23>6_05_A+7! (V<(G6!A26>!6>(!G(*;21120)!05!6>(!*+2,A+7!+)9!+6!6>(!+GG*0G*2+6(!<*0112)31!G*0.29(9! H7!6>(!*+2,A+7#! ! 2.3.5 Level crossing system evaluation techniques (technical and financial)

T>(! 8*+)2+)! 81,+;2(!50,,0A2)3!<>+*+<6(*2162<1B! !

! &J! ! K2L! ,0<+620)!05!6>(!<*0112)3f! K22L! *+2,!+)9!*0+9!6*+552!05!6>(!*0+9!<*0112)3!6>(!*+2,!6*+:1R!25!+!,(.(,!<*0112)3!21!A26>2)!+!<267!+)9!>+1!+!A29(!*0+9!<+**2+3(A+7!!K(#3#! 90:H,(!,+)(R!9:+,!<+**2+3(A+7LR!26!A2,,!H(!(E:2GG(9!A26>!90:H,(!H+**2(*1!(26>(*!129(!05! 6>(!6*+(!,(.(,!<*0112)3!<+**2(1!+!)0*;+,!6A0!,+)(!*0+9R!26!A2,,!H(!(E:2GG(9! A26>!+!12)3,(!H+**2(*!(26>(*!129(!05!6>(!6*+(!,(.(,!<*0112)3!21!,0<+6(9!0:6129(!+! <267!+)9!90(1!)06!<+**7!+!;+2)!*0+9R!26!A2,,!)0*;+,,7!)06!H(!G*06(<6(9R!2#(#!26!A2,,!>+.(! 0),7!52V(9!*0+9!A+*)2)3!H0+*91!+6!261!+GG*0+<>(1#! ! T>(! 8*+)2+)! 81,+;2(! G*0<(11! 05! 9(.(,0G2)3! 3:29(,2)(1!50*!:1(!2)!+11(112)3!6>(!<+1(!50*!:G3*+92)3!261!,(.(,!<*0112)3!2)16+,,+620)1#! c>2,(!)0!0552<2+,!6*+552()!+)9! 60! A>+6! (V6()6! ,(.(,! <*0112)31! 1>0:,9! H(! :G3*+9(9R! +! *(<()6! 16:97! H7! 16+55! 05! 6>(! C+2,A+7! C(1(+*<>! /()6*(! >+1! 2)92<+6(9! 6>(! 50,,0A2)3! T[! KT*+5522<,(1!V!9+2,7!):;H(*!05!6*+2)1L!.+,:(1!50*!67G2<+,!,(.(,!<*0112)31!2)! (+<>!05!6>(!6>*((!<+6(30*2(1!2)!6>(!1716(;B! ! ! K2L! Class “a” <*0112)31#! [2)2;:;!*0+9!.(>2<,(1!G(*!>0:*B! FJJ! ! ! [2)2;:;!6*+2)1!G(*!9+7B! &J! ! ! T[!v!FJJ!V!&=!V!&J!v! 288,000 ! K22L! Class “b” <*0112)31#! [2)2;:;!*0+9!.(>2<,(1!G(*!>0:*B! =DJ! ! ! [2)2;:;!6*+2)1!G(*!9+7B! &J! ! ! T[!v!=DJ!V!&=!V!&J!v! 216,000 ! K222L! Class “c” <*0112)31#! [2)2;:;!*0+9!.(>2<,(1!G(*!>0:*B! %JJ! ! ! [2)2;:;!6*+2)1!G(*!9+7B! $J! ! ! T[!v!%JJ!V!&=!V!$J!v! 72,000 ! ! 86! ;:16! H(! )06(9! 6>+6! 6>(! 8*+)2+)! 81,+;22<,(1!:12)3!261!,(.(,!<*0112)31#!!P(26>(*!+*(! 6>(1(! <0:)61! 6+Z()! H7! 6>(! 30.(*);()6! +3()<2(1! *(1G0)12H,(! 50*! *0+9! <0)16*:<620)! +)9!;+)+3(;()6#!!T>(!+H0.(!9+6+!A(*(!H+1(9!0)!k0)(_055l!<0:)61!05!6*+552(!H:12(16!*0+91!2)!(+<>!G*0.2)<(#! ! Q+1(9! 0)! 6>(! +H0.(! *(1:,61! 05! 6>(! C(1(+*<>! /()6*(! 16:97R! 6>(! *+2,A+7! G*0G01(1!60!(16+H,21>!<*26(*2+!50*!6>(!+11(11;()6!05!,(.(,!<*0112)31!+1!50,,0A1B!

Proposed level crossing assessment criteria, Islamic Republic of Iran

TM value Indicated crossing type

T[!q!?&RJJJ! P0!G*06(<620)!d!12;G,(!52V(9!*0+9!A+*)2)3!123)1!+6!<*0112)3!+GG*0+<>(1!0),7! ?&RJJJ!p!T[!p!&NNRJJJ! [(<>+)2<+,! 0*! (,(<6*2<+,,7! 0G(*+6(9! ,2562)3! H+**2(*1f! 52V(9! A+*)2)3! H0+*9! +)9! 5,+1>2)3!A+*)2)3!,23>61!+3+2)16!*0+9!:1(*1f!52V(9!,(.(,!<*0112)3!A+*)2)3!H0+*9! +3+2)16!6*+2)!9*2.(*1! T[!w!&NNRJJJ! C0+9!0.(*G+11!0*!:)9(*G+11!

Source: Country Paper for Islamic Republic of Iran. ! !

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j1! 9(G+*6;()6! A2,,! <+**7! 0:6! (<0)0;2(!50,,0A2)3!5+<60*1B! ! #$ T>(! present annual value!KPAVL! 05! 6>(! *(E:2*(9! 2).(16;()6! 2)! 6>(! 3*+9(!1(G+*+620)!A0*Z1f! #$ 4+,+*7!+)9!;+2)6()+)<(!<016!05!6>(!,(.(,!<*0112)3!60!H(!*(G,+<(9f! #$ 4+.2)31! 60! *0+9! :1(*1! *(1:,62)3! 5*0;! *(9:<(9! 5:(,! <0)1:;G620)R! .(>2<,(!9(G*(<2+620)!+)9!G(*10)+,!9(,+7!62;(f!+)9! #$ 4+.2)31!60!6>(!*+2,A+7!6>*0:3>!(,2;2)+620)!05!1G((9!*(16*2<620)1#! ! 86!;:16!H(!)06(9!6>+6!6>(1(!(.+,:+620)1!90!not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

e)(! 05! 6>(! ;+\0*! 1+5(67! 6>*(+61! 60! 6>(! *+2,A+7! +*21(1! 5*0;! 6>(! G*(1()<(! 05! :)0552<2+,! ,(.(,! <*0112)31! A>2<>! .(*7! 056()! 6+Z(! 6>(! 50*;! 05! k9216*2H:6(9! <*0112)31l! +,0)3! +! H*0+9! *23>6_05_A+7! 5*0)6+3(! 2)! 6>(! (V26! +*(+1! 05! <262(1#! ! T>(! 8*+)2+)! 81,+;2+1!+66(;G6(9!60!(,2;2)+6(!6>21!G*0H,(;!H7!<0)16*:<62)3!<0)<*(6(! H+**2(*1!+,0)3129(!6>(!*+2,A+7!6*+(!;0*(!<*262<+,!,0<+620)1#! ! 2.3.7 Level crossing safety impediments

T>(!8*+)2+)!81,+;2+1!)0;2)+6(9!6>(!50,,0A2)3!5+<60*1!+1! ;+\0*!2;G(92;()61!60!6>(!2;G*0.(;()6!05!,(.(,!<*0112)3!1+5(67!0)!261!1716(;B! ! K2L! Limited finance.!!/0)16*:<620)!05!3*+9(!1(G+*+6(9!<*0112)31!21!,2Z(,7!60! <016!+)7A>(*(!H(6A(()!W4o!$!;2,,20)!+)9!W4o!?!;2,,20)!G(*!<*0112)3! 9(G()92)3! :G0)! 6>(! ,()36>! 05! H*293(! 1G+)1! *(E:2*(9R! A>2,(! H+**2(*! G*06(<620)! +)9! A+*)2)3! ,23>6! 2)16+,,+620)! 21! (162;+6(9! 60! <016! W4o! $NRJJJ!G(*!<*0112)3!K1:33(162)3!+!606+,!05!+H0:6!W4o!%#F!;2,,20)!25!+,,! &J$! 05! 6>(! (V2162)3! :)0552<2+,! +)9! 0552<2+,R! H:6! :)G*06(<6(9R! <*0112)31! +*(! :G3*+9(9L#! T>(! *+2,A+7! <:**()6,7! 5+<(1! 1(.(*(! *(16*2<620)1! 0)! 261! <+G26+,! 1G()92)3! +)9! 2)9((9! >+1! )0! 1G(<252

! &&! ! K22L! Unfavourable social environment. h23>!*21Z!,(.(,!<*0112)31!6()9!60!H(! ,0<+6(9!2)!6>(!(V26!+*(+!05!<262(1!A>(*(!6>(!G00*!(9:<+620)!+)9!,+(! >23>! 5*(E:()<7!05!,(.(,!<*0112)3!+<<29()61f!

K222L! Problem of unofficial “distributed” level crossings. @1! G*(.20:1,7! ;()620)(9R!6>(!2)<*(+12)3!:1+3(!05!6>(1(!:)0552<2+,!<*0112)31!H7!,0<+,! <0;;:)262(1! 1((Z2)3! 60! +.029! 9(,+71! +6! 0552<2+,! <*0112)31! <0)6*2H:6(1! 60! 6>(! >23>! 5*(E:()<7! 05! ,(.(,! <*0112)3! +<<29()61! 0)! 6>(! ;+*32)1! 05! <262(1f! ! K2.L! Poor road signalling. 8)16+,,+620)! 05! *0+9! A+*)2)3! 123)1! +6! 6>(! +GG*0+<>(1! 60! ,(.(,! <*0112)31! 21! 6>(! *(1G0)12H2,267! 05! *0+9! <0)16*:<620)g;+)+3(;()6! +:6>0*262(1! 12)<(! 6>(1(! 123)1! +*(! ,0<+6(9! 0:6129(! 05! *+2,A+7! *23>61_05_A+7#! [+)7! 05! 6>(1(! 123)1! >+.(! 9(6(*20*+6(9!9:(!60!,+(!:1(!05!0,9(*R!,(11!(552<2()6! +)9! 3()(*+,,7! :)6*+2)(9! <*0112)3! G*06(<620)! 16+55! >+1! H(()! +! 5+<60*! <0)6*2H:62)3!60!10;(!+<<29()61!0)!6>(!1716(;#!!T>(!2)+H2,267!60!*(G,+<(! 6>(1(!16+55!A26>!70:)3(*R!;0*(!(552<2()6!+)9!6*+2)(9!G(*10))(,!2;G(9(1! 1+5(67!()>+)<(;()6!+6!10;(!<*0112)3!,0<+620)1f!+)9! ! K.2L! Careless and negligent motor vehicle drivers.!!-+(! 81,+;2(! E:+,267! 05! 9*2.(*! (9:<+620)!+)9!E:+,252<+620)!G*03*+;;(1!+.+2,+H,(!2)!6>(!<0:)6*7!;+7! *(E:2*(!*(_(.+,:+620)!+)9!*(50*;!25!6>21!21!60!H(!(,2;2)+6(9!+1!+!;+\0*! <0)6*2H:60*7!5+<60*#!

2.4 Level Crossing Safety in the Russian Federation

2.4.1 Level crossing characteristics and effectiveness ! Y+6+!G*0.29(9!H7!6>(!C:112+)![2)216*7!05!C+2,A+71!K1((!T+H,(!&#$&!+)9!6>(! +<<0;G+)72)3! 92+3*+;L! 1>0A! 6>+6! 6>(! ):;H(*! 05! ,(.(,! <*0112)31! 2)! 6>(! C:112+)! M(9(*+620)! >+1! H(()! 9(<,2)2)3! 16(+92,7! 12)<(! $II&#! T>(! 606+,! ):;H(*! 05! <*0112)31! 9(<,2)(9!H7!+)!+.(*+3(!05!&#$!G(*!<()6!G(*!7(+*!H(6A(()!$II&!+)9!$IIIR!A>2,(!6>(! +)):+,! *+6(1! 05! 9(<,2)(! 9:*2)3! 6>(! 1+;(! G(*209! 50*! ;+))(9! +)9! :);+))(9! ,(.(,! <*0112)31!+.(*+3(9!&#?!G(*!<()6!+)9!$#I!G(*!<()6!*(1G(<62.(,7#!

! &%! ! Table 2.12: Trend in level crossing numbers

1992 1993 1994 1995 1996 1997 1998 1999 Manned Level 3,443 3,425 3,370 3,273 3,171 3,062 2,921 2,844 Crossings Unmanned Level 12,270 12,437 12,329 12,186 12,011 11,739 11,238 10,737 Crossings Total 15,713 15,862 15,699 15,459 15,182 14,801 14,159 13,581

Source: Ministry of Railways Country Paper.

16000

12000 Manned L.C. Unmanned L.C. 8000 Total 4000

1992 1993 1994 1995 1996 1997 1998 1999

During the same period, the number of accidents at level crossings declined by an average of 2.6 per cent per annum, with the decline in the number of accidents at manned level crossings averaging 1.8 per cent per annum and at unmanned level crossings 2.7 per cent per annum.

Table 2.13: Trend in level crossing accidents

1992 1993 1994 1995 1996 1997 1998 No of Accidents on Manned L.C. 67 113 86 68 60 83 59 No of Accidents on Unmanned L.C. 374 402 401 346 340 350 309 Total 441 515 487 414 406 433 368

Source: Ministry of Railways Country Paper.

600

400 No. of Accidents on Manned L.C. 200 No. of Accidents on Unmanned L.C. Total 1992 1993 1994 1995 1996 1997 1998

However, accident rates (i.e. accidents per million train-km) are increasing as shown in Table 2.14 and the accompanying diagram. The declining traffic task as reflected in the train kilometre trend was not matched by the decrease in the number of level crossing accidents.

24 Table 2.14: Trend in level crossing accident rates

1993 1994 1995 1996 1997 1998 Million train-km 16,400 13,600 13,100 12,100 11,300 9,300 Accidents per 0.031 0.036 0.032 0.034 0.038 0.040 million train-km

Source: Ministry of Railways Country Paper.

0.045 0.04 0.035 0.03 0.025 0.02 0.015 0.01 0.005 0

Accidents/mtk

Details of the types of level crossings currently in operation on the railway system of the Russian Federation are given in Table 2.15, the trend in installations of each type of manned crossing is given in Table 2.16, and the trend in the numbers of each type of unmanned crossing is given in Table 2.17.

Trends in the numbers of manned crossings by type indicate that the numbers of all types of installations except types “B” and “H” have been declining over the past seven years. In particular, there was a steady reduction in the numbers of the most advanced “A” type crossing which, apart from being manned, is equipped with automatically operated barriers and full warning light protection against road and rail traffic. By comparison, over the same period, there was a decline in all types of unmanned level crossings, except type “J”, which now represents 40 per cent of all level crossings in the Russian Federation. Significantly, “B” type crossings, while equipped with automatically operated warning lights against road traffic, have no warning signals against train drivers.

Although there is insufficient evidence available, the decline in the “A” type crossing (averaging 3.2 per cent per annum), coupled with the increase in the “J” type crossing (averaging 2.3 per cent per annum) may have contributed to the deteriorating trend in level crossing accidents per million train-kilometres over the seven year period reviewed. It must also be noted that accident rates have increased despite a decline (averaging 4.2 per cent per annum) in the number of unprotected crossings on the system.

25 Table 2.15: Types of level crossings operational in 1999 !

Category Number Manning Type of level crossing Type of signalling system on system status signalling system for for railway transport road vehicles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a(9!H+**2(*1!A26>!! @1!+H0.(#! A0*Z(*! +)):)<2+60*!+)9!;+):+,! ,23>6!123)+,!1716(;#! M! %D! 4(*.(9!H7!9:67! [(<>+)2a(9!H+**2(*1!A26>! @1!+H0.(#! A0*Z(*! +)):)<2+60*!123)+,! 1716(;!K)0!,23>6!1716(;L#! '! II! 4(*.(9!H7!9:67! [(<>+)2a(9!H+**2(*1! @1!+H0.(#! A0*Z(*! A26>0:6!+)):)<2+60*!0*! ,23>6!1716(;1#! h! %DD! 4(*.(9!H7!9:67! h0*2a0)6+,!*06+*7! @1!+H0.(#! A0*Z(*! Q+**2(*1!0),7#! 8! $R%=&! P06!1(*.(9!H7! @:60;+626! 8)! *(+10)+H,(! <+1(1! 0)! 9:67!A0*Z(*! 123)+,!1716(;!A26>! 90:H,(!6*+26(!,23>6#! G*06(<620)! ,23>61! A2,,! H(! G*0.29(9#!! ]! DRD&&! P06!1(*.(9!H7! @:60;+626! P06!G*0.29(9#! 9:67!A0*Z(*! 123)+,!1716(;#! X! %IN! P06!1(*.(9!H7! T*+5526!123)+,! 4G(<2+,! 123)+,1! A26>! +,+*;! 9:67!A0*Z(*! 1716(;! ,23>61! +*(! <0)6*0,,(9! H7! :12)3!1>:)62)3!123)+,! 1>:)62)3! 0*! ,0<0;062.(! <*(AR! A26>!*(9!+)9!A>26(!,23>61! 0*!0G(*+6(!+:60;+62<+,,7#! +1!+!G*06(<620)#!

Source: Ministry of Railways Country Paper. ! ! !

! &F! ! Table 2.16: Trend in the numbers of each manned crossing type

T7G(!05! $II&! $II%! $II=! $IID! $IIF! $II?! $IIN! $III! <*0112)3! @! $R=?&! $R=N?! $R=F&! $R=&I! $R=$&! $R&N&! $R&$I! $R$?J! Q! $RJ$&! $RJ%N! $RJ=F! $RJD=! $RJNN! $R$%F! $R$&?! $R$%D! /! =N$! =%&! =%=! =$J! %?F! %=F! &IN! &N$! Y! $&?! $%J! $$?! $JJ! NJ! N%! ?N! F?! U! F&! DN! D?! D$! ==! %=! =N! =&! M! D?! F$! DD! =N! =D! %I! %&! %D! '! &$I! $IF! $I&! $D=! $F=! $%$! $J?! II! h! &IF! =J=! =JD! %FJ! %=$! %?&! =$N! %DD!

Source: Ministry of Railways Country Paper. !

Table 2.17: Trend in the numbers of each unmanned crossing type ! T7G(!05! $II&! $II%! $II=! $IID! $IIF! $II?! $IIN! $III! <*0112)3! 8! &%?%! &JI&! &J$%! $NFI! $??D! $F=&! $=JD! $%=&! ]! =FNJ! D=%D! DD%N! DFID! D??=! D?D&! DFF%! DD&&! X! D$?! DF=! DF&! D&J! =D%! =D=! ==$! %IN! P0!9(.2<(! =?JJ! =%=F! =&$F! =$J&! =JJI! %NI&! %?&I! %=?D!

Source: Ministry of Railways Country Paper. ! 2.4.2 Level crossing evaluation system ! T>(! C:112+)! M(9(*+620)! C+2,A+71! >+1! <,+11252(9! 261! ,(.(,! <*0112)31! 2)! +<<0*9+)<(!A26>!+!;+6*2V!1716(;R!A>2<>!*(,+6(1!6>(!2)6()1267!05!G+112)3!*+2,!6*+552(!2)6()1267!05!G+112)3!*0+9!6*+5522)!+!&=!>0:*!G(*209#!!T>21!1716(;!21!9(1<*2H(9! 2)!T+H,(!&#$N#! ! ! Table 2.18: Level crossing classification in the Russian Federation ! 8)6()1267!05!*+2,!6*+5522<,(1!G(*!9+7! K606+,!):;H(*!05!G+112)3!6*+2)1!G(*! 2)!H06>!92*(<620)1L! 9+7!2)!H06>!92*(<620)1L!! -(11!6>+)! &J$_$JJJ! $JJ$_%JJJ! %JJ$_?JJJ! [0*(!6>+)! &JJ! ?JJJ! 2)<,:12.(! -(11!6>+)!$F!2)<,:12.(R!+)9!+,10!0)!+,,! =6>!/,+11! =6>!/,+11!! =6>!/,+11! %*9!/,+11! &)9!/,+11! 16+620)!+)9!+<<(11!6*+!/,+11! =6>!/,+11! %*9!/,+11! &)9!/,+11! $16!/,+11! $J$_&JJ! =6>!/,+11! %*9!/,+11! &)9!/,+11! $16!!/,+11! $16!/,+11! [0*(!6>+)!&JJ! %*9!/,+11! &)9!/,+11! &)9!/,+11! $16!!/,+11! $16!/,+11!!

Source: Ministry of Railways Country Paper. ! ! T>(! 9216*2H:620)! 05! +,,! 6>(! ,(.(,! <*0112)31! A26>2)! 6>21! <,+11252<+620)! 1716(;! 21! 32.()!2)!T+H,(!&#$I#!

! &?! ! Table 2.19: Distribution of all level crossings, by traffic density class ! T*+552

Source: Ministry of Railways Country Paper. n!!!8)92<+6(1!5:,,!H+**2(*!G*06(<620)#! nn!!8)92<+6(1!)0!H+**2(*!G*06(<620)#!! ! T>(! ,(.(,! <*0112)3! 3*+92)3! <*26(*2+! +90G6(9! H7! 6>(! C:112+)! M(9(*+620)! C+2,A+71!appear!60!2)92<+6(!6>+6!+,,!<*0112)31!05!6>(!52*16!6*+5520:,9!2)! 5:6:*(!H(!;+))(9!+)9!6>+6!<*0112)31!05!6>(!&)9!60!=6>!6*+5520:,9! H(!:);+))(9!+)9!(E:2GG(9!A26>!.+*20:1!67G(1!05!+:60;+6221!<,+11252<+620)!*(G*(1()61!+!9(G+*6:*(!5*0;!G*(1()6!G*+<62<(!2)!6>(!1()1(! 6>+6!6>(*(!21!+!>23>(*!G(*<()6+3(!05!G*06(<6(9!<*0112)3!6>+)!A0:,9!H(!2)92<+6(9!H7!6>(! 6*+552(*(!>+1!H(()!+!A0*1()2)3!05!6>(!+<<29()6! *+6(!0.(*!6>(!1(.()!7(+*!G(*209!*(.2(A(9#! ! h0A(.(*R! 6>(! [2)216*7! 05! C+2,A+71! /0:)6*7! C(G0*6! +,10! 2)92<+6(1! 6>+6! ! k+6! G*(1()6R! 0H,23+60*7! *(E:2*(;()61! 60! 6>(! (E:2G;()6! 05! *+2,A+7! ,(.(,! <*0112)31! 9(G()92)3! 0)! 6>(2*! 67G(! 0)! 6>(! C:112+)! M(9(*+620)! C+2,A+71! +*(! )06! (16+H,21>(9#!! T>(! 1G(<25202<(! 05! 6>(! (E:2G;()6! 21! 9(6(*;2)(9! H7! *+2,A+71! 9(G()92)3! 0)! <0)92620)1! 05! 0G(*+620)f! .212H2,267! 05! 6*+2)! +)9! .(>2<,(R! 6*+5522<,(1! +)9! 6*+2)1R!+.+2,+H2,267!05!(,(<6*2(!(E:2G;()6!05!,(.(,!<*0112)31!A26>!6>(!,(.(,! <*0112)3!123)+,!1716(;!9(.2<(1!+)9!06>(*!5+<60*1l#!!M*0;!6>21!26!;23>6!H(!2)5(**(9!6>+6! 6>(! C:112+)! M(9(*+620)! C+2,A+71! 9(<29(! 0)! 6>(! :G3*+92)3! 05! ,(.(,! <*0112)31! 5*0;! :)G*06(<6(9! 60! G*06(<6(9! 16+6:1! 0)!+! <+1(_H7_<+1(! H+121! +)9! 90! )06! +<6:+,,7! +GG,7! 6>(!<*26(*2+!2)92<+6(9!2)!T+H,(!&#$?!+H0.(#! ! ! 2.4.3 Level crossing safety impediments ! T>(!C:112+)!M(9(*+620)!C+2,A+71!>+1!29()6252(9!6>(!50,,0A2)3!5+<60*1!+1!6>(! ;+2)!<+:1(1!05!,(.(,!<*0112)3!+<<29()61B! ! K2L! low level of public discipline!+)9R!+1!+!<0)1(E:()<(R!;+11!.20,+620)1! H7!.(>2<,(!9*2.(*1!05!6>(!*:,(1!*(,+62)3!60!G+112)3!05!,(.(,!<*0112)31f! ! K22L! motor vehicle driver misjudgements! <0)<(*)2)3! *0+9! <0)92620)1! +)9! 6>(!+GG*0+<>!05!6*+2)1!0)!,(.(,!<*0112)31f! ! K222L! motor vehicle driver misjudgements! 05! .(>2<,(! 1G((9! +)9! H*+Z2)3! <+G+H2,262(1!9:*2)3!6>(!A2)6(*!;0)6>1f! ! K2.L! technical malfunction of road vehiclesf! ! K.L! non-compliance by highway authorities! A26>! 6>(! 16+)9+*91! 05! *0+9! ;+2)6()+)<(!+6!6>(!+GG*0+<>(1!60!,(.(,!<*0112)31f! !

! &N! ! K.2L! poor maintenance! 05! ,(.(,! <*0112)3! A+*)2)3! +)9! G*06(<620)! 9(.2<(1f! +)9! ! K.22L! human error!0)!6>(!G+*6!05!,(.(,!<*0112)3!16+55#! ! ! 8)! +<<0*9+)<(! A26>! 6>(1(! G*2;+*7! +<<29()6! <+:1+620)! 5+<60*1R! 6>(! C:112+)! M(9(*+620)! C+2,A+71! >+1! )0;2)+6(9! 6>(! 50,,0A2)3! +1! 6>(! *(;(92+,! ;(+1:*(1! A>2<>! 1>0:,9!>+.(!G*20*267!50*!2;G,(;()6+620)!2)!5:6:*(!6>*0:3>0:6!261!*+2,A+7!)(6A0*ZB! ! K2L! 2;G*0.(!*0+9!921<2G,2)(!05!.(>2<,(!9*2.(*1!+)9!0H1(*.+)<(!05!,+A!+)9! 0*9(*!0)!,(.(,!<*0112)31f! ! K22L! 2;G*0.(!*(,2+H2,267!05!9(.2<(1!0G(*+62)3!0)!,(.(,!<*0112)31f! ! K222L! ;09(*)2a+620)!+)9!2;G*0.(;()6!05!6(<>)2<+,!9(.2<(1!2)16+,,(9!+6!,(.(,! <*0112)31f! ! K2.L! 2)6*09:<620)!05!2;G*0.(9!;(6>091!50*!;+2)6()+)<(!05!,(.(,!<*0112)31f! ! K.L! H(66(*!0*3+)2a+620)!05!6*+5522)! 6>(! >23>(16! 6*+5522<,(!9*2.(*!(9:<+620)!G*03*+;;(1f! ! K.222L! ()>+)<(;()6! 05! 6*+2)2)3! +)9! E:+,252<+620)! *(E:2*(;()61! 50*! ;060*! .(>2<,(!9*2.(*1!+)9!*+2,A+7!,(.(,!<*0112)3!G(*10))(,f! ! K2VL! *(52)(;()6!05!,(.(,!<*0112)3!<,+11252<+620)!1716(;f! ! KVL! 2;G*0.(;()6! 05! ;+6(*2+,1! 2)50*;2)3! 6>(! G:H,2(! 92552<:,67! A26>! 6>(1(! *(;(92+,! ;(+1:*(1! 21! 6>+6R! H7! +)9! ,+*3(R! 6>(7! +*(! +H16*+<6!+)9!90!)06!50<:1!0)!6>(!+GG+*()6!;+\0*!5+<60*!<0)6*2H:62)3!60!+!A0*1()2)3!05! 6>(!,(.(,!<*0112)3!+<<29()6!*+6(R!2#(#!a reduction in the number of manned, protected level crossings#!T>21!21!)06!60!1:33(16!6>+6!+,,!<*0112)31!1>0:,9!H(!;+))(9!2)!5:6:*(#! h0A(.(*R!26!;+7!H(!+*3:(9!6>+6!6>(*(!21!+!16*0)3!<+1(!50*!G*0.292)3!H+**2(*!G*06(<620)! +6! +,,! H:6! 6>(! ,(+16! 9()1(,7! 6*+552+12a(9! 6>+6! :)9(*! G*(1()6! +**+)3(;()61R! )0)(! 05! 6>(! 0552<2+,! :);+))(9! ,(.(,! <*0112)31R! *(G*(1()62)3! ;0*(!6>+)!DJ!G(*!<()6!05!6>(!0552<2+,!<*0112)31!0)!6>(!C:112+)!M(9(*+620)j1!*+2,A+7! )(6A0*ZR!>+1!+)7!50*;!05!H+**2(*!G*06(<620)!A>+6(.(*#!8)!+992620)R!6>(*(!+*(!+)06>(*! %R=?D! <*0112)31! 0)! 6>(! )(6A0*Z! A26>0:6! +)7! 50*;! 05! A+*)2)3! 0*! G*06(<620)! 9(.2<(#! T>(1(! +*(! G*(1:;+H,7! 9(123)+6(9! H7! 6>(! [2)216*7! 05! C+2,A+71! +1! k:)0552<2+,l! <*0112)31R! H:6! )0! 2)92<+620)! >+1! H(()! G*0.29(9! +1! 60! 6>(! 6*+552! <*0112)31!+)9!05!6>(2*!16+6:1!2)!6>(!G*03*+;;(!50*!,(.(,!<*0112)3!2;G*0.(;()6#!! ! ! M2)+,,7R!6>(*(!21!)0!2)92<+620)!6>+6!6>(![2)216*7!05!C+2,A+71!>+1!7(6!+90G6(9!+! G+*62<:,+*,7! (552<2()6! 1716(;! 50*! *(<0*92)3! +)9! 9211(;2)+62)3! ,(.(,! <*0112)3! +<<29()6!

! &I! ! 16+62162<1#! @)! 2)262+62.(! 60! 2;G*0.(! 6>(! 9211(;2)+620)! 05! Z)0A,(93(! +H0:6! ,(.(,! <*0112)3! 1+5(67! G(*50*;+)<(! 21! 1(()! +1! +)! (11()62+,! <0;G0)()6! 05! +)7! G0,2<7! 60! 2;G*0.(!,(.(,!<*0112)3!1+5(67#! ! ! 2.5 Level Crossing Safety in Viet Nam

2.5.1 Summary

T>(!*+2,A+7!1716(;!05!O2(6!P+;!A26>!+!606+,!*0:6(!,()36>!05!0),7!&R?$&!Z;!>+1! +)!(162;+6(9!=RN=&!,(.(,!<*0112)31R!0*!+)!+.(*+3(!05!0)(!<*0112)3!50*!(.(*7!>+,5!+! Z2,0;(6*(! 05! *0:6(! ,()36>#! ! T>:1! O2(6! P+;! >+1! 0)(! 05! 6>(! 9()1(16! ,(.(,! <*0112)3! 1716(;1!2)!@12+R!A26>!;0*(!6>+)!6>*((!62;(1!6>(!,(.(,!<*0112)3!9()1267!05!8)92+#! ! e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estimates!50*!O2(6! P+;! 05! +<<29()6R! 5+6+,267! +)9! 2)\:*7! *+6(1! G(*! ;2,,20)! 6*+2)! Z2,0;(6*(1#! ! 86! A+1! )(<(11+*7!60!;+Z(!6>(1(!(162;+6(1!+1!6*+2)!Z2,0;(6*(!16+62162<1!+*(!)06!;+2)6+2)(9R!+6! ,(+16!+6!6>(!,(.(,!05!6>(!*+2,A+7!>(+9E:+*6(*1#!!Train-kilometre estimates were based on information supplied by the railway in respect of the number of trains and average distances run. ! 42)<(! +<<29()61! +6! ,(.(,! <*0112)31! *(G*(1()6! )(+*,7! 6A0_6>2*91! 05! +,,! *+2,A+7! +<<29()61!+)9!+<<0:)6!50*!;0*(!6>+)!?D!G(*!<()6!05!5+6+,262(1!+)9!;0*(!6>+)!N$!G(*! <()6!05!2)\:*2(1!2)!+,,!67G(1!05!*+2,A+7!+<<29()61!2)!O2(6!P+;R!26!H(<0;(1!+!;+66(*!05! <*:<2+,!2;G0*6+)<(!60!()50*<(!)(A!1+5(67!;(+1:*(1!A>2<>!<+)!(,2;2)+6(!0*!;2)2;2a(! +<<29()61! 05! 6>21! 67G(#! ! h0A(.(*R! 6>(! 6(<>)2E:(1! +.+2,+H,(! 50*! +:60;+6(9! ,(.(,! <*0112)3!G*06(<620)!+*(!)06!+550*9+H,(!50*!O2(6)+;!C+2,A+71!+)9R!32.()!6>(!*(,+62.(,7! ,0A!<016!05!,+H0:*R!26!21!,2Z(,7!6>+6!+)7!1+5(67!()>+)<(;()6!G*03*+;;(!A0:,9!>+.(!60! 50<:1! 0)! (V6()120)! 05! ;+):+,! G*06(<620)! 60! <:**()6,7! :)G*06(<6(9! <*0112)31#!! UV<(G620)1!A0:,9!H(!+!,2;26(9!):;H(*!05!<*0112)31!2)!h+)02!+)9!h0!/>2![2)>!/267R! A>(*(! H06>! *0+9! +)9! *+2,! 6*+552! 9(,+7! ;2)2;2a2)3! 5(+6:*(1#! ! T0! +11216! 6>(! G*0<(11! 05! G*20*26212)3! ;(+1:*(1! 60! 2;G*0.(! ,(.(,! <*0112)3! 1+5(67R!26!A2,,!H(!(11()62+,!50*!O2(6)+;!C+2,A+71!60!2;G*0.(!6>(!1716(;!50*!1+5(67!9+6+! <+G6:*(! +)9! 60! *(_9(52)(! 6>(! <*26(*2+! :1(9! 50*! 9(6(*;2)2)3! A>2<>! ,(.(,! <*0112)31! 1>0:,9! E:+,257! 50*! 3*+9(! 1(G+*+620)! 0*! (E:2G;()6! :G3*+92)3#! ! T>(! G*(1()6! kT*+55201(! <*0112)31! 50*! A>2<>! 3*+9(! 1(G+*+620)! 1>0:,9! H(! G*0.29(9! 21! 0),7! &JRJJJ! G(*! 9+7R! +1! <0;G+*(9! A26>! $JJRJJJ! G(*! 9+7! 2)! 8)92+#!M:*6>(*R!*0+9!6*+552(!,(.(,!05!(+<>!05!6>(!6>*((! +9;2)216*+62.(! 92.2120)1! K:1:+,,7! <+,,(9! kW)20)! C+2,A+71lL#! 86! 21! 6>(*(50*(! 2;G0112H,(! 50*!>(+9E:+*6(*1!16+55!60!9(<29(!:G0)!G*20*262(1!A>()!6>(7!>+.(!)(26>(*!6>(!+H2,267!60! 9(6(*;2)(!A>2<>!,(.(,!<*0112)31!>+.(!G+*62<:,+*,7!G00*!1+5(67!*(<0*91R!)0*!6>(!+H2,267! 60!9(6(*;2)(!6>(!6*()9!2)!*0+9!6*+552

! %J! ! ! 2.5.2 Level crossing safety record

(a) Accidents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b) Fatalities

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

Figure 2.7: Numbers and rates of level crossing fatalities in Viet Nam!

$=J F#JJ

$&J D#JJ

$JJ =#JJ

%#JJ

Number of fatalities &#JJ =J No. fatalities per million train-km

$#JJ &J

J J#JJ 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998

L.C. fatalities 76 71 82 86 85 88 87 82 84 86 92 101 115 L.C. fatality ra te 2.62 2.16 3.23 5.36 5.47 5.45 5.47 5.39 4.72 3.94 4.15 4.48 5.29

Source: Country Report for Viet Nam.

! %$! ! M23:*(! &#?! +,10! 2)92<+6(1! +! 9*+;+62(! *+6(! 05! ,(.(,! <*0112)3! 5+6+,262(1! G(*! ;2,,20)! 6*+2)! Z2,0;(6*(1! H(6A(()! $INN! +)9! $INI! +)9! +3+2)! H(6A(()! $II?!+)9!$IIN#!T>21!21!(VG,+2)(9!H7!6>(!5+<6!6>+6!6>(!):;H(*!05!5+6+,262(1!<0)62):(9!60! *21(!A>2,(!rail trafficR!;(+1:*(9!2)!6(*;1!05!6*+2)!Z2,0;(6*(1R!9(<,2)(9#!!P0!2)50*;+620)! 2)! *(1G(<6! 05! 6*()91! 2)! 6>(! .0,:;(! +)9! <0;G012620)! 05! *0+9! 6*+552(1(! 6A0! G(*2091!A+1!+.+2,+H,(#!!P(.(*6>(,(11R!26!21!,2Z(,7!6>+6!0.(*!6>(1(!G(*2091!*0+9!6*+552(!h+)02!+)9!h0!/>2![2)>!/267!:*H+)! +*(+1! A>2<>! >+.(! H7! 5+*! 6>(! 3*(+6(16! <0)<()6*+620)! 05! ,(.(,! <*0112)31! A26>2)! O2(6! P+;j1!*+2,A+7!)(6A0*Z#! ! e.(*!6>(!G+16!9(<+9(R!6>(!,(.(,!<*0112)3!5+6+,267!*+6(!+.(*+3(9!+H0:6!=#I!G(*! ;2,,20)!6*+2)_Z;R!A>2<>!A+1!3*(+6(*!6>+)!6>(!<0**(1G0)92)3!*+6(!2)!8)92+!H7!+!5+<60*!05! &D!+)9!3*(+6(*!6>+)!6>(!<0**(1G0)92)3!*+6(!2)!/+)+9+!H7!+!5+<60*!05!$$#! ! c>2,(! )0! 2)50*;+620)! 0)! 6>(! <0**(1G0)92)3! 6*()9! 2)! 5+6+,262(1! 2)! +,,! 67G(1! 05! *+2,A+7!+<<29()61!A+1!;+9(!+.+2,+H,(R!0.(*!6>(!G+16!9(<+9(!,(.(,!<*0112)3!+<<29()61! +<<0:)6(9!50*!INN!K0*!?D#&!G(*!<()6L!0:6!05!+!606+,!05!$R%$%!G(*10)1!Z2,,(9!2)!+,,!*+2,A+7! +<<29()61!2)!O2(6!P+;#!!/,(+*,7R level crossing accidents claim by far the greatest loss of life in railway operations in Viet Nam.! ! ! (c) Injuries

T>(! 6*()9! 2)! 6>(! ):;H(*! 05! 2)\:*2(1! +)9! 2)! 6>(! 2)\:*7! *+6(! G(*! ;2,,20)! 6*+2)! Z2,0;(6*(1!21!1>0A)!2)!M23:*(!&#N#! ! ! Figure 2.8: Numbers and rates of level crossing injuries in Viet Nam

&DJ $&#JJ

$J#JJ &JJ km

N#JJ n- rai $DJ on t i l l

F#JJ es per m i $JJ uri nj Number of injuries Number =#JJ i No.

DJ &#JJ

J J#JJ 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998

L.C. injuries 147 138 158 146 112 123 129 108 121 137 185 180 226 L.C. injury rate 5.07 4.19 6.23 9.10 7.21 7.62 8.11 7.10 6.79 6.27 8.34 7.98 10.40

Source: Country Report for Viet Nam.

! %&! ! e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evel crossing characteristics and effectiveness ! (a) General characteristics/overall density ! '*+9(!1(G+*+6(9!2)6(*1(<620)1!H(6A(()!*0+9!+)9!*+2,!(V216!+6!0),7!$$!,0<+620)1! 6>*0:3>0:6!O2(6!P+;#!42V!05!6>(1(!+*(!,0<+6(9!A26>2)!6>(!'*(+6(*!h+)02!+*(+R!05!A>2<>! 52.(! 9+6(! H+(! (+*,7! G+*6! 05! &J6>! <()6:*7! A>()! 6>(! M*()<>! <0,0)2+,! +9;2)216*+620)! <0)16*:<6(9! +! *+2,A+7! .2+9:<6! 60! ,2)Z! :G! A26>! 6>(! -0)3! Q2()! Q*293(! +<*011!6>(!C(9!C2.(*#!-(.(,!<*0112)31!+*(!6>(*(50*(!6>(!G*(90;2)+)6!50*;!05!*0+9g*+2,! 2)6(*1(<620)!2)!O2(6!P+;!+)9!+*(!,2Z(,7!60!*(;+2)!10!50*!10;(!62;(!2)60!6>(!5:6:*(#! ! Y(6+2,1!05!6>(!9()1267!+)9!):;H(*!05!,(.(,!<*0112)31!H7!67G(R!+1!1:GG,2(9!H7! O2(6)+;!C+2,A+71!+*(!32.()!2)!T+H,(!&#&J. !

Table 2.20: Number and density of level crossings in Viet Nam

P:;H(*!05! T06+,!)0#!05! -(.(,!<*0112)3! P0#!05!0552<2+,!,(.(,!<*0112)31! P0#!05! *0:6(_Z;! ,(.(,! 9()1267! S*06(<6(9! W)G*06(<6(9! :)0552<2+,!,(.(,! <*0112)31! !K)0#!G(*!*0:6(_ <*0112)31! Z;L!!

&R?$&! =RN=&! $#N! %F?! N%%! %RF=&!

Source: Country Report for Viet Nam. ! e552<2+,! ,(.(,! <*0112)31! +*(! 6>01(! A>2<>! >+.(! H(()! +:6>0*2a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

! %%! ! Q06>! +*(! ;+):+,,7! 0G(*+6(9R! *(E:2*2)3! &=! >0:*! G(*! 9+7! ;+))2)3! 05! +,,! G*06(<6(9! <*0112)31#&! ! c>2,(! +,,! 0552<2+,! <*0112)31! >+.(! A+*)2)3! H0+*91! 5+<2)3! *0+9! 6*+552+.(! ;+):+,,7! 0G(*+6(9! *(9! ,23>6! A+*)2)3! 123)+,1! +3+2)16! *0+9! 6*+552<#! 8)! ;016! <+1(1! 6>(1(! +*(! 16(+97! ,23>6! 123)+,1R! +,6>0:3>! +! 1(6! 05! 5,+1>2)3! *(9! ,23>6! 123)+,1! A+1! 0H1(*.(9! +6! 0)(! ;+\0*! <*0112)3! 2)! h+)02#! ! @:92H,(! A+*)2)3! ;(<>+)21;1! K;016,7! 2)! 6>(! 50*;! 05! A+*)2)3! H(,,1L! +*(! 2)16+,,(9! +6! +! ;2)0*267! 05! G*06(<6(9! ,(.(,! <*0112)31#! T>(1(R! +,10R! +*(! 0G(*+6(9! H7! *+2,A+7! <*0112)3! 16+55#! @1! *(G0*6(9!H7!O2(6)+;!C+2,A+71R!A+*)2)3!123)+,1!+3+2)16!6*+2)1!+*(!2)16+,,(9!+6!0),7!?! ,0<+620)1! 0)! 6>(! 1716(;R! +,6>0:3>! +6! ,(+16! %! ,0<+620)1! +6! A>2<>! 6>(1(! 123)+,1! +*(! 2)16+,,(9!A(*(!.2126(9!9:*2)3!6>(!U4/@S!;21120)!60!h+)02#!c>()!+<62.+6(9!H7!,(.(,! <*0112)3! 16+55R! 6>(1(! 123)+,1! 921G,+7! +! 16(+97! A>26(! ,23>6! +3+2)16! 6*+2)! 9*2.(*1! 60! 2)92<+6(!6>(!G*(1()<(!05!+)!0H16*:<620)!0)!6>(!<*0112)3#!c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h+)02L!21!H(2)3!2)6(*,0!6>(!H,0(!%RF=&!:)0552<2+,!<*0112)31!K*(G*(1()62)3!?D!G(*!<()6!05!6>(! 606+,!):;H(*!05!,(.(,!<*0112)31!0)!6>(!1716(;L!+*(!:)G*06(<6(9#!T>(1(!+*(!<*0112)31! A>2<>! >+.(! H(()! (16+H,21>(9! 2,,(3+,,7! H7! ,0<+,! <0;;:)262(1#! T>(7! *+)3(! 5*0;! 5+2*,7! 10G>2162<+6(9!<0)16*:<620)1!;+9(!5*0;!G+.2)3!H,0(*!129(!05!6>(!6*+1! H:2,6! +<*011! 6>(! 6*+! 52,,#! ! 8)! O2(6! P+;R! 6>(2*!):;H(*!21!5+2*,7!5,:29!d!6>(7!<+)!H(!<0)16*:<6(9!0)(!9+7!+)9!*(;0.(9!6>(!)(V6#! c>2,(! 6*+2)! 9*2.(*1! ;+7! H(! +A+*(! 05! 6>(2*! (V216()<(R! 6>(2*! 1+5(! :1(! 21! 606+,,7! 9(G()9()6!:G0)!6>(!\:93(;()6!+)9!1+5(67!+A+*()(11!05!,0<+,!*0+9!:1(*1#! ! (b) Level crossing types and density by area ! T>(!*+2,A+7!1716(;!05!O2(6!P+;!21!92.29(9!2)60!6>*((!+9;2)216*+62.(!92.2120)1R! Z)0A)!+1!kW)20)1l#!!W)20)!8R!2)<0*G0*+62)3!6>+6!G+*6!05!6>(!1716(;!H(6A(()!6>(!H0*9(*! A26>!/>2)+!+)9!Y0)3!h02!K10:6>!05!O2)>!0)!6>(!h+)02_h0!/>2![2)>!/267!6*:)Z!,2)(LR! <0)6+2)1! D=! G(*! <()6! 05! 6>(! 1716(;j1! *0:6(! Z2,0;(6*(1R! H:6! 10;(! ?D! G(*! <()6! 05! 261! :)0552<2+,! ,(.(,! <*0112)31#! W)20)! 88! KY0)3! h02_Y2(:! T*2L! >+1! &&! G(*! <()6! 05! 6>(! 1716(;j1!*0:6(!Z2,0;(6*(1!H:6!0),7!F!G(*!<()6!05!261!:)0552<2+,!<*0112)31R!A>2,(!W)20)!888! KY2(:!T*2_h0!/>2![2)>!/267L!A26>!&=!G(*!<()6!05!6>(!1716(;j1!*0:6(!Z2,0;(6*(1!<0)6+2)1! $I!G(*!<()6!05!261!:)0552<2+,!<*0112)31#!85!FJ!G(*!<()6!05!,(.(,!<*0112)3!+<<29()61!+*(! 6>0:3>6!60!0<<:*!+6!:)0552<2+,!<*0112)31R!6>()!<,(+*,7!6>(!+*(+!<0.(*(9!H7!W)20)!8!>+1! +!;+\0*!,(.(,!<*0112)3!1+5(67!G*0H,(;#! ! @1!;23>6!H(!(VG(<6(9R!,(.(,!<*0112)3!9()1267!21!3*(+6(16!2)!6>(!:*H+)!+*(+1!05! h+)02!+)9!h0!/>2![2)>!/267#!h+)02!A26>!+!*+2,!*0:6(!Z2,0;(6*+3(!05!%=!>+1!)0!5(A(*! 6>+)!%JD!,(.(,!<*0112)31R!0*!+)!+.(*+3(!05!0)(!<*0112)3!(.(*7!$$J!;(6*(1#!e5!6>(1(R! %&! +*(! ;+))(9R! DD! +*(! (E:2GG(9! 0),7! A26>! *0+9! A+*)2)3! H0+*91! +)9! &$N! +*(! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! &!e)(!(V<(G620)!21!6>(!<*0112)3!+6!6>(!;+\0*!Y+2!/0!O2(6g-(!Ya:+)!*0+9!2)6(*1(<620)!+H0:6!%! Z;!10:6>!05!<()6*+,!h+)02#!h(*(R!+!606+,!05!$$!(,(<6*2<+,,7!G0A(*(9!6*0,,(7!3+6(1!21!G*0.29(9! 50*! *0+9g*+2,! 6*+552()! 6>21! <*0112)3! A+1! .2126(9! 9:*2)3! 6>(! <0:*1(! 05! 6>(! U4/@S! ;21120)R! >0A(.(*R! 6>(! (,(<6*2(! 6*0,,(7! 3+6(1! A(*(! :)1(*.2<(+H,(!+)9!6>(!6*0,,(7!H+**2(*1!A(*(!;+):+,,7!9(G,07(9!H7!10;(!05!6>(!I!*+2,A+7!16+55! G(*!1>256!+1123)(9!60!6>21!,0<+620)#!

! %=! ! :)0552<2+,#!P0!2)50*;+620)!A+1!G*0.29(9!0)!6>(!):;H(*!05!0552<2+,!,(.(,!<*0112)31!2)!h0! />2![2)>!/267R!H:6!6>(!):;H(*!05!:)0552<2+,!<*0112)31!21!(162;+6(9!+6!D&#! ! W)50*6:)+6(,7R!+<<29()6!+)9!+110<2+6(9!<+1:+,67!9(6+2,1!A(*(!)06!+.+2,+H,(!H7! +*(+R!10!6>+6!26!A+1!)06!G0112H,(!60!29()6257!6>(!*(,+62.(!(V6()6!05!6>(!1+5(67!G*0H,(;!2)! :*H+)! .(*1:1! )0)_:*H+)! +*(+1! 05! O2(6! P+;R! )0*! 2)9((9! 60! 29()6257! k>06_1G061l! A26>! >23>! +<<29()6! 5*(E:()<2(1! +)9! <+1:+,67! *+6(1#! T>21! 21! 2)92<+62.(! 05! 6>(! ,+! 60! *+2,A+7! 1+5(67! 9+6+! <0,,(<620)! +)9! +)+,7121! A26>2)! O2(6)+;! C+2,A+71R! +)! 211:(! A>2<>! 21! 921<:11(9! 2)! 3*(+6(*! 9(G6>! 2)! 4(<620)! &#D#?#! @1! +! <0)1(E:()<(R! 26! 21! 0),7! G0112H,(! 60! infer! +! *(,+620)1>2G! H(6A(()! 6>(! 9()1(! <0)<()6*+620)!05!,(.(,!<*0112)31!K+)9!(1G(<2+,,7!05!:)G*06(<6(9!,(.(,!<*0112)31L!+)9! 6>(!5*(E:()<7!05!*0+9g*+2,!<0,,2120)1!+6!,(.(,!<*0112)31!2)!:*H+)!+*(+1#!! ! (c) Relative efficiency of different types of crossing protection

-(.(,! <*0112)3! (552<2()<7! ;+7! H(! ;(+1:*(9! 2)! 6A0! A+71B! 2)! 6(*;1! 05! 6>(! (55(<62.()(11!05!9255(*()6!67G(1!05!G*06(<620)!1716(;1!2)!G*(.()62)3!+<<29()61!+)9!2)! 6(*;1!05!6>(!<+G+H2,267!05!(+<>!67G(!05!G*06(<620)!1716(;!60!;2)2;2a(!6>(!9(,+7!60!*0+9! 6*+552(! G+11+3(! 05! 6*+2)1! K+)9! 10;(62;(1! 60! ;2)2;2a(! 6>(! 9(,+7! 60! 6*+2)1R!A>(*(!6>(*(!21!+!*(E:2*(;()6!50*!,0A!1G((9!0G(*+620)!05!6*+2)1!6>*0:3>!,(.(,! <*0112)31L#! ! M0*! 6>(! *(+10)1! 05! 9+6+! )0)_+.+2,+H2,267R! +1! 2)92<+6(9! (+*,2(*R! 26! A+1! )06! G0112H,(!60!<0)<,:9(!A>(6>(*!6>(!H+**2(*!G*06(<620)!1716(;1!2)!:1(!2)!O2(6!P+;!>+9! H(()!(55(<62.(!2)!G*(.()62)3!+<<29()61!d!+,6>0:3>!26!;+7!H(!*(+10)+H,(!60!;+Z(!1:<>! +)!2)5(*()<(#! ! 8)! 6(*;1! 05! 6>(2*! (552<2()<7! 2)! ;2)2;2a2)3! 9(,+7! 60! *0+9! :1(*1R! 0H1(*.+620)1! ;+9(!9:*2)3!6>(!<0:*1(!05!6>(!U4/@S!;21120)!60!h+)02!*(.(+,(9!6>+6!H+**2(*1!A(*(! <,01(9! 0)! +.(*+3(! 50*! not longer than two minutes#! 4:<>! +! 9(,+7! 21! ,2Z(,7! 60! H(! +<<(G6+H,(! (.()! A26>! 6>(! >(+.7! *0+9! 6*+552(!1(<620)!0H1(*.(9!KH(6A(()!h+)02!+)9!'2+!Q+6LR! +6!+H0:6!N!G+2*1!05!6*+2)1!G(*!9+7R!21!<0;G+*+62.(,7!,23>6#!P(.(*6>(,(11R!26!+GG(+*1!6>+6! 6>(!;+)+3(;()6!05!O2(6)+;!C+2,A+71!>+1!+90G6(9!+!5:6:*(!6+*3(6!05!+!0)(!;2):6(! 9(,+7! 50*! +,,! G*06(<6(9! ,(.(,! <*0112)31#! T>21! 26! >0G(1! 60! +<>2(.(! H7! 2)16+,,2)3! 6*+2)_ +<6:+6(9!H+**2(*!G*06(<620)!+6!<*0112)31!A>2<>!90!)06!<+**7!1:552<2()6!6*+552

8)! O2(6! P+;R! 6>(*(! 21! )0! 1:G*+_*+2,A+7! 0*3+)2a+620)! A>2<>!21! *(1G0)12H,(! 50*! +9;2)216*+620)! 05! 1+5(67! *(3:,+620)1#! O2(6)+;! C+2,A+71! 21! 261(,5! *(1G0)12H,(! 50*! ()1:*2)3!6>+6!30.(*);()6!*(3:,+620)1!*(,+62)3!60!*+2,A+7!1+5(67!+*(!()50*<(9#! ! T>(!<:**()6!30.(*);()6!9(<*((!A>2<>!30.(*)1!1+5(67!+6!*0+9g*+2,!<*0112)31!21! k'0.(*);()6+,! Y(<*((! %Ig/S! ()1:*2)3! 1+5(67! +)9! 1(<:*267! 50*! *+2,A+7! 6*+)1G0*6l! 05! D!]:,7!$III#! ! M2.(!+*62<,(1!05!6>21!9(<*((!+*(!*(,(.+)6!60!,(.(,!<*0112)3!1+5(67#!T>(1(!+*(!+1! 50,,0A1B! ! #$ Article 31R! A>2<>! *(E:2*(1! +,,! 0*3+)2a+620)1! +)9! 2)92.29:+,1! >+.2)3! +! )((9! 60! 0G()! +! ,(.(,! <*0112)3! 60! H(! *(1G0)12H,(! 50*! 6>(! <016! 05!

! %D! ! 2)16+,,+620)R! ;+)+3(;()6R! ;+2)6()+)<(! +)9! *(G+2*! 05! *0+9! 123)1! +)9! (E:2G;()6!)(<(11+*7!50*!1(<:*267!+)9!1+5(67!+6!6>+6!G,+<(f! ! #$ Article 32R! A>2<>! *(E:2*(1! 6>+6! ,(.(,! <*0112)3! 2)16+,,+620)! ;:16! H(! k<0;;21120)(9l! +)9! <+**2(9! 0:6! 2)! <0)50*;267! A26>! (16+H,21>(9! 16+)9+*91!+)9!1G(<252<+620)1f! ! #$ Article 44, A>2<>! <0)6+2)1! +! ):;H(*! 05! G*0.2120)1! *(,+62)3! 60! 0<<:G+620)!05!,(.(,!<*0112)31!H7!6*+2)1!+)9!60!+<620)!60!H(!6+Z()!A>()! +<<29()61! 0<<:*! +6! ,(.(,! <*0112)31#! 4G(<252<+,,7R! 26! 16+6(1! 6>+6B! 6>(! *+2,A+7!21!50*H299()!60!160G!6*+2)1!2)129(!,(.(,!<*0112)31!(V<(G6!2)!6>(! <+1(!05!+!1:99()!+<<29()6f!6>+6!6>(!9(,+7!60!*0+9!6*+552(! 1>:)62)3! 0*! 160GG2)3! 05! 6*+2)1! 2)129(! +! ,(.(,! <*0112)3! 1>0:,9! )06! (V<((9!6>*((!;2):6(1!50*!+!/,+11!$!0*!&!<*0112)3!+)9!52.(!;2):6(1!50*! +! /,+11! %! <*0112)3f! +)9! 6>+6! 2)! 6>(! <+1(! 05! +)! +<<29()6! +6! +! ,(.(,! <*0112)3!6>(!h(+9!05!T*+2)!46+55R!*+2,A+7!9*2.(*1!+)9!06>(*!*(1<:(!16+55! ;:16!9(6(*;2)(!+<620)!)((9(9!60!*(160*(!6>*0:3>!*0+9!+)9!*+2,!6*+5522<>!16+6(1!6>+6!,(.(,!<*0112)3!H+**2(*1!;:16!H(!<,01(9!+6! ,(+16!0)(!;2):6(!H(50*(!6>(!+**2.+,!05!+!6*+2)!2)!6>(!<+1(!05!+)!(,(<6*2<+,! H+**2(*!+)9!+6!,(+16!0)(!+)9!+!>+,5!;2):6(1!H(50*(!6*+2)!+**2.+,!2)!6>(! <+1(!05!+!;+):+,!H+**2(*#!42;2,+*,7!6>21!+*62<,(!,2;261!6>(!<,01:*(!05!,(.(,! <*0112)3!H+**2(*1!60!)06!;0*(!6>+)!%!;2):6(1!H(50*(!6*+2)!+**2.+,!2)!6>(! <+1(! 05! /,+11(1! $! +)9! &! <*0112)31! +)9! 60! )06! ;0*(! 6>+)! D! ;2):6(1! H(50*(!6*+2)!+**2.+,!2)!6>(!<+1(!05!/,+11!%!<*0112)31f!+)9

#$ Article 46R! A>2<>! 16+6(1! 6>+6B! K+L! 6>(! *+2,A+7! ;09(! >+1! G*20*267! 05! G+11+3(f! KHL!G(9(16*2+)1! +)9! 06>(*! *0+9! :1(*1! ;:16! <0;G,7! A26>! A+*)2)31! H(! 6>(7! 2)16*:<620)1! 05! ,(.(,! <*0112)3! Z((G(*1R! 123)+,! 2)92<+620)1! H7! ;(+)1! 05! ,+;G1R! 5,+31! 0*! 123)1R! 0*! 9(G,07;()6! 05! G*06(<62.(!H+**2(*1f!K(*! *0+9! :1(*1! ;:16! 2;;(92+6(,7! *(1G0)9! 60! 160G! 123)+,1! H7! >+,62)3!0)!6>(!*23>6_>+)9!129(!05!6>(!*0+9!+6!,(+16!%!;(6*(1!2)!5*0)6!05! 6>(!160G!123)f!K9L!+6!)0)_H+**2(*!(E:2GG(9!,(.(,!<*0112)31R!G(9(16*2+)1! +)9!06>(*!*0+9!:1(*1!>+.(!+!9:67!60!Z((G!+!,00Z_0:6!50*!6*+2)1!+)9!25! 0)(!21!+GG*0+<>2)3!60!160G!0)!6>(!*23>6!>+)9!129(!05!6>(!*0+9!+6!,(+16!D! ;(6*(1!5*0;!6>(!)(+*(16!*+2,f!K(L!2)!126:+620)!K9L!G(9(16*2+)1!+)9!06>(*! *0+9! :1(*1! ;:16! +<<(G6! *(1G0)12H2,267! 50*! +)7! +<<29()61f! +)9! K5L! 6>+6! G(9(16*2+)1! +)9! 06>(*! *0+9! :1(*1! +*(! 50*H299()! 60! 0G()! H+**2(*1! 6>(;1(,.(1# ! T>(!/0:)6*7!S+G(*!50*!O2(6!P+;!<0)6+2)(9!)0!1G(<252+6!:)0552<2+,! <*0112)31!A(*(!G*0>2H26(9!H7!Y(<*((!%Ig/SR!H:6!+1!1:<>!<*0112)31!A(*(!9(1<*2H(9! +1!2,,(3+,!2)!6>(!/0:)6*7!S+G(*R!6>()!26!;23>6!*(+10)+H,7!H(!+11:;(9!6>+6!6>(!9(<*((! 90(1!<0)6+2)!1:<>!+!G*0>2H2620)#! ! ! 2.5.5 Level crossing system evaluation techniques (technical and financial)

P0! 1716(;+62(! )((9g\:16252<+620)! 50*! :G3*+9(9! <*0112)3! G*06(<620)! 21! <+**2(9! 0:6! H7! O2(6)+;! C+2,A+71#!!h0A(.(*R!10;(!6(<>)2<+,!(.+,:+620)!21!:)9(*6+Z()R!+1!21!2)92<+6(9!H7!6>(!

! %F! ! <:**()6!G*03*+;;(!60!G2,06!6(16!6>(!c(162)3>0:1(!1716(;!05!6*+2)!+<6:+6(9!A+*)2)3! 123)+,1!+)9!G*06(<62.(!H+**2(*1!0)!6>(!O2(6!P+;!*+2,A+7!)(6A0*Z#! ! T0!+!,+*3(!(V6()6R!6>(!+H1()<(!05!1716(;+62+)<(;()6! 21! 9:(! 60! 6>(! ,+(! 5*+3;()6+620)!05!;+)+3(;()6!*(1G0)12H2,267!50*!1+5(67!;:16!+,10!>+.(!+)!2;G+<6#! ! c>2,(!6>(!W)20)!C+2,A+71!+)9!,0A(*!,(.(,1!05!6>(!0*3+)2a+620) (V(*<21(!9+7_ 60_9+7!;+)+3(;()6!*(1G0)12H2,267!50*!0G(*+620)!05!,(.(,!<*0112)31!+)9!50*!+9>(*()<(! 60! 30.(*);()6! 1+5(67! *(3:,+620)1R! 6>(! >(+9E:+*6(*1! :)26! 05! O2(6)+;! C+2,A+71! >+1! *(1G0)12H2,267! 50*! 6>(! G,+))2)3! +)9! ;0H2,2a+620)! 05! <+G26+,! (VG()926:*(R! 2)<,:92)3! 6>(! (VG()926:*(! 0)! :G3*+9(9! ,(.(,! <*0112)3! G*06(<620)! 1716(;1#! T>(! 1+5(67! 16+62162<1! 1:GG0*62)3! 6>(! <+1(! 50*! <+G26+,! 1G()92)3! 0)! 1+5(67! ()>+)<(;()6! +*(! ;+2)6+2)(9! ;+):+,,7!K3()(*+,,7!2)!921+33*(3+6(9!50*;L!+6!6>(!,(.(,!05!6>(!W)20)!C+2,A+71!+)9!+*(! )06!+1!7(6!+11(;H,(9!2)60!+!<0;G:6(*2a(9!9+6+H+1(!+6!>(+9E:+*6(*1!,(.(,#! ! Y(1G26(! 6>(! +H1()<(! 05! +)7! 1716(;+62(! [2)216*7! 05! T*+)1G0*6R! /0;;:)2<+620)! +)9! S016! <0)6+2)! <*26(*2+! 50*! 1(662)3! ,(.(,! <*0112)3! :G3*+92)3! G*20*262(1#! T>(1(! <*26(*2+R! +1! 1>0A)! H(,0AR! (11()62+,,7! 92162)3:21>! H(6A(()! 6>*((! <+6(30*2(1!K0*!<,+11(1L!05!,(.(,!<*0112)3!0)!6>(!H+121!05!6>(2*!<0;H2)(9!*0+9!+)9!*+2,! 6*+552(! <+6(30*2(1! 05! *0+91! 2).0,.(9R! 6>(! ,0<+620)! K2#(#! :*H+)g)0)_:*H+)LR! +)9!6>(2*!.212H2,267!*+62)3B! ! First class ,(.(,!<*0112)31!+*( 6>01(!A>(*(

#$ *+2,A+7! ,2)(1! 2)6(*1(<6! A26>! *0+91! 05! 52*16R! 1(<0)9! 0*! 6>2*9! <,+11! <,+11252<+620)f #$ *+2,A+7!,2)(1!2)6(*1(<6!A26>!:*H+)!*0+91!<+**72)3!+!9()1(!;2V!05!G*2.+6(! +)9!G:H,2(! kT*+5522<,(1!G(*!9+7L!21!3*(+6(*!6>+)!&JRJJJ#

Second class!,(.(,!<*0112)31!+*(!6>01(!A>(*(!

#$ *+2,A+7!,2)(1!2)6(*1(<6!A26>!*0+91!05!50:*6>!0*!5256>!<,+11!<,+11252<+620)f #$ *+2,A+7!,2)(1!2)6(*1(<6!A26>!:*H+)!*0+91!<+**72)3!+!*(,+62.(,7!,(11!9()1(! ;2V!05!G*2.+6(!+)9!G:H,2(!T[!21!H(6A(()!DRJJJ!+)9!&JRJJJ!25!6>(*(!21!1:552<2()6!.212H2,267!0*! H(6A(()!$RJJJ!+)9!DRJJJ!25!6>(*(!21!2)1:552<2()6!.212H2,267#

Third class!,(.(,! <*0112)31! +*(! 6>01(! A>2<>! 90! )06! 1+62157!+)7! 05! 6>(! +H0.(! <*26(*2+#!

T>(!*0+9!<,+11252<+620)1!:1(9!+1!6>(!H+121!50*!6>(1(!,(.(,!<*0112)3!<*26(*2+!+*(! 32.()!2)!T+H,(!&#&$#

@992620)+,!<*26(*2+!1G(<252(9!2)!6>(!,(.(,!<*0112)3!*:,(1!+*(!6>+6B!/,+11!$!+)9!&! ,(.(,!<*0112)31!>+.2)3!+!*+2,!6*+5520:*1!*(E:2*(! H+**2(*! G*06(<620)f! ,(.(,! <*0112)31! A26>! +6! ,(+16! $&! 6*+2)1! G(*! &=! >0:*1R! H:6! A26>! *(16*2<6(9!.212H2,267!*(E:2*(!H+**2(*!G*06(<620)f!+)9!H*+)<>!,2)(1!>+.2)3!+!6*+552+)!=!6*+2)1!+)9!$DJ!*0+9!.(>2<,(1!G(*!&=!>0:*1!90!)06!*(E:2*(!H+**2(*! G*06(<620)#!

! %?! ! Table 2.21: Road classification system in Viet Nam

M+<60*!!!!!!!!!!!!!!!!!!!!!!!!! ! ! ! ! ! ! !!!%!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!/,+11!&! 8! 88! 888! 8O! O! O8! S/W!n!G(*!9+7! w!FJJJ! %JJJ!d! $JJJ!d!! %JJ!d!! !!DJ!d! '!!DJ! FJJJ! %JJJ! $JJJ! %JJ! ! 4G((9!KZ;g>0:*L! ! ($ M,+6!0*!G,+6(+:!+*(+1! $&J! $JJ! NJ! FJ! =J! &D! ($ [0:)6+2)g>23>,+)9!+*(+1! _! _! FJ! =J! &D! _!

Source: Vietnam Railways. ! n!S/W!v!G+11()3(*!<+*!:)26#!!e6>(*!.(>2<,(1!+*(!<0).(*6(9!2)60!S/Wj1!:12)3!6>(!50,,0A2)3!! ! !!!!!!!!!!!!!!5+<60*1B!H2<7<,(!J#&f!;060*<7<,(!J#%f!H:1(1!+)9!;(92:;!6*:*((!+V,(!6*:(*!162G:,+6(9!2)!6>(!,(.(,!<*0112)3!*:,(1!6>+6!Class I crossings should be grade separated. ! TA0! ;+2)! 92552<:,62(1! +*(! +110<2+6(9! A26>! 6>(! G*+<62<+,! +GG,2<+620)! 05! 6>(1(! <*26(*2+!50*!6>(!:G3*+92)3!05!,(.(,!<*0112)31#! ! T>(!52*16!21!6>+6!6>(!6*+55201(!A26>!+!T[!05!+6!,(+16!&JRJJJ!+)9!+!6*+2)!9()1267!05! +6!,(+16!$F!G(*!&=!>0:*1R!32.2)3!+!*0+9!6*+5522<,(1!G(*!9+7! K&JRJJJg$FL#! T>21! 523:*(! 21! ,2Z(,7! 60! H(! (V<((9(9! +6! ;016! 05! 6>(! ,(.(,! <*0112)31! 2)! h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evel crossing safety initiatives

T>(!;+)+3(;()6!05!O2(6)+;!C+2,A+71!G*0G(*,7!+66+<>(1!3*(+6(16!G*20*267!60! <0).(*62)3! :)0552<2+,! ,(.(,! <*0112)31! 60! 0552<2+,! <*0112)31! A26>! +6! ,(+16! 10;(! 50*;! 05! A+*)2)3!123)+3(!5+<2)3!*0+9!:1(*1!+)9!A26>!+)!+9(E:+6(,7!1:*5+<(9!*0+9A+7!+<*011! 6>(!6*+

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f! ! #$ G*03*(112.(!2)16+,,+620)!05!H+**2(*!G*06(<620)!+)9!5,+1>2)3!*0+9!A+*)2)3! 123)+,1!+6!N%%!0552<2+,R!H:6!<:**()6,7!:)G*06(<6(9R!<*0112)31f!+)9! ! #$ 2)16+,,+620)!05!;+):+,!0*!6*+2)_+<6:+6(9!*0+9!A+*)2)3!123)+,1!+6!+,,!%F?! G*06(<6(9!<*0112)31!0)!6>(!*+2,A+7!1716(;#! ! 8)262+,!G*20*267!2)!6>(!G*03*+;;(R!A>2<>!A0:,9!>+.(!+!606+,!<016!(162;+6(9!+6!! OPY! N%$RFIJ! ;2,,20)! KW4o! F=! ;2,,20)LR! A0:,9! H(! 32.()! 60! 6>(! 0552<2+,2a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

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! %!C(<()6!<0)16*:<620)!05!+!*0+9!0.(*G+11!H*293(!0)!6>(!h+)02_h0!/>2![2)>!/267!;+2),2)(!A26>! +! 606+,! ,()36>! 05! ! %%#N=! ;(6*(1! A+1! (162;+6(9! 60! <016! OPY! IDR$$?! ;2,,20)! KW4o! ?#%$F?! ;2,,20)L#!T>21!<016!21!(E:2.+,()6!60!OPY!&RN$$!;2,,20)!!KW4o!&$FR&$DL!G(*!;(6*(#!

! %I! ! Table 2.22: Proposed Level Crossing Upgrading Programme, Viet Nam ! S*03*+;;(!0H\(<62.(! T7G(!05!2)16+,,+620)! P:;H(*! W)26!/016! T06+,!<016! OPY![2,,#! OPY!![2,,#! KW4o![2,,#L! KW4o![2,,#L! Officialization/upgrading of [+):+,! ,2562)3! H+**2(*! !!!!!!!!%$! =$J!KJ#J%$DL! $&R?$J! unofficial level crossings KA26>! 5,+1>2)3! *0+9! KJ#I???L! A+*)2)3!123)+,1L! ! @:60;+626L! K%%#$DFNL! ! !!!!!!Sub-total 3,642 ! 508,848 (38.1422) Upgrading of official T*0,,(7! 3+6(1! K;+):+,L! !!!!!!!!&I! DDJ!KJ#J=&%L! $DRIDJ! unprotected crossings A26>! 5,+1>2)3! *0+9! ! K$#&&FIL! A+*)2)3!123)+,1! ! [+):+,! ,2562)3! H+**2(*! !!!!!!$%N! =$J!KJ#J%$DL! DFRDNJ! KA26>! 5,+1>2)3! *0+9! K=#%D&%L! A+*)2)3!123)+,1L! ! ! @:60;+622)3! *0+9! A+*)2)3! !!!!!%F?! !&$J!KJ#J$F&L! ??RJ?J! 123)+,1! K50*! ;+):+,! KD#I&NDL! ,2562)3!H+**2(*1L! ! 4(*.2<(! *0+91! +,0)3! ==R?==!K;L! !!!!J#D!! &&R&?&! *+2,A+7!,2)(1! K$#?&JIL! ! Sub-total! !!!!!367 ! 110,452 ! (8.4963) TOTAL PROGRAMME !!!831,690 (63.9762)

Source: Vietnam Railways.

WG3*+92)3! 05! 6>(! 2)262+,! 6*+)<>(! 05! =%$! :)0552<2+,! <*0112)31! A0:,9! H(! :)9(*6+Z()!9:*2)3!G>+1(1!8!+)9!88R!50*!+!606+,!<016!(162;+6(9!+6!OPY!$J$RJD$!;2,,20)! KW4o!?#??!;2,,20)L#!O2(6)+;!C+2,A+71!>+1!+,10!G*0G01(9!+)!+,6(*)+62.(!G*03*+;;(! :)9(*!A>2<>!+,,!(,(;()61!2)!6>(!+H0.(!6+H,(!A0:,9!H(!:)9(*6+Z()!(V<(G6!2)16+,,+620)! 05!+:60;+62(*!6>+)!6>(!G*20*267!3*0:G! 05! =%$#! T>(! 0.(*+,,! <016! 05! 6>(! +,6(*)+62.(! G*03*+;;(! >+1! H(()! (162;+6(9! +6! OPY! =&%RNI%!;2,,20)!KW4o!%&!;2,,20)LR!0*!+H0:6!>+,5!6>+6!05!6>(!G*(5(**(9!+,6(*)+62.(#! ! 8)!+992620)!60!6>(!+H0.(R!O2(6)+;!C+2,A+71!*(<()6,7!600Z!+!1(*2(1!05!6(<>)2<+,! +)9! +9;2)216*+62.(! ;(+1:*(1! 60! 2;G*0.(! ,(.(,! <*0112)31! 1+5(67#! ! T>:1R! D?I! ,(.(,! <*0112)31!>+.(!*(<()6,7!H(()!G+.(9!A26>!<0)<*(6(!G+)(,1R!$?&!>+.(!H(()!H26:;()_ 1:*5+<(9!+)9!+)06>(*!%?=!>+.(!H(()!3*+.(,,(9#!!M:*6>(*;0*(R!2)!+)!(550*6!60!2)<*(+1(! 6>(! .232,+)<(! 05! 3+6(Z((G(*1R! 6>(2*! A0*Z2)3! *:,(1! >+.(! H(()! +;()9(9#! ! c>2,(! 6>(7!

! =J! ! G*(.20:1,7!A0*Z(9!+!$&_>0:*!1>256!+)9!A()6!055!9:67!50*!&=!>0:*1R!6>(7!)0A!A0*Z!+)!N! >0:*!1>256!H(50*(!302)3!055!9:67!50*!$F!>0:*1#! ! e6>(*! 2)262+62.(1! 6+Z()! H7! 6>(! O2(6)+;! C+2,A+71! 60! 2;G*0.(! ,(.(,! <*0112)3! 1+5(67! >+.(! H(()! 50<:1(9! 0)! <0;;:)267! +A+*()(11! H*0+9<+161! 0)! )+620)+,! 6(,(.2120)! +)9! G*0.2120)! 05! +11216+)<(! 60! (9:<+620)! +:6>0*262(1! 2)! 6>(! G*(G+*+620)! 05! ;+6(*2+,1!50*!9211(;2)+620)!2)!1<>00,1#!h0A(.(*R!6>(!*+2,A+7!+9;2)216*+620)!,+21!67G(#!! ! 2.5.7 Level crossing safety impediments

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g-(! Ya:+)! 2)6(*1(<620)L#!! ! !! T0! 10;(! (V6()6! G00*! 3()(*+,! (9:<+620)! ,(.(,1! ;+7! +,10! <0)16*+2)! 6>(! (55(<62.()(11! 05! G:H,2(*(! 21! )0! (.29()<(! 05! +! )(<(11+*7! ,2)Z! H(6A(()! 6>(! 0.(*+,,! ,(.(,! 05! (9:<+620)! +)9! 1+5(67! +A+*()(11#! c>2,(! +! 16*0)3! <+1(! (V2161! 50*! +:3;()62)3!O2(6)+;!C+2,A+71j!H:93(6!50*!+)9!*0,(!2)!G:H,2+1! 60!H(!+<<(G6(9!6>+6!6>(!H()(5261!05!6>21!;(+1:*(!+*(!:),2Z(,7!60!H(!+<>2(.(9!2)!6>(! 1>0*6!6(*;#! ! T>(!1(<0)9!;+\0*!2;G(92;()6!21!6>(!+GG+*()6!5+2,:*(!05!6>(!*+2,A+7!60!G*(.()6! 6>(!2,,(3+,!<0)16*:<620)!05!,(.(,!<*0112)31!H7!,0<+,!<0;;:)262(1#!O2(6!P+;!>+1!0)(!05! 6>(!!3*(+6(16!G*0,25(*+620)1!05!:)0552<2+,!,(.(,!<*0112)31!2)!@12+!+)9!O2(6)+;!C+2,A+71! >+1! 2)92<+6(9! 6>+6! :)0552<2+,! <*0112)31! +<<0:)6! 50*! +H0:6! FJ! G(*! <()6! 05! +,,! ,(.(,!

! =$! ! <*0112)3!+<<29()61#!T>(!5+<6!6>+6!;016!05!6>(!*+2,A+7!*23>6!05!A+7!2)!O2(6!P+;!21!)06! 5()<(9! +)9! K50*! *(+10)1! 05! <016L! 21! 2;G*+<62<+,! 60! 5()<(R! (V+<(*H+6(1! 6>21! G*0H,(;#! T>(*(!21!)0!<(*6+2)67!6>+6!6>(!*+2,A+7j1!G,+)!60!2)16+,,!+:60;+62(*(!+*(!90:H61! +H0:6! 6>(! (55(<62.()(11! 05! 6>21! ;(+1:*(! K:)+<<0;G+)2(9! H7! 10;(! 50*;! 05! H+**2(*! G*06(<620)L! 2)! *(9:<2)3! 6>(! 5*(E:()<7! 05! ,(.(,! <*0112)3! +<<29()61#! M0*! 6>21! *(+10)R! 6>(*(! +GG(+*1! 60! H(! )0! *(+,2162()2)3! 6>(! G0A(*1! K+)9! 6>(! *(10,.(L! 05! *+2,A+7! 16+55! 60! ()50*<(! 6>(! 30.(*);()6j1! 1+5(67! 92*(<62.(1! +)9! *:,(1! 2)! 0*9(*!60!(,2;2)+6(!5:*6>(*!G*0,25(*+620)!05!:)0552<2+,!,(.(,!<*0112)31#! ! @!6>2*9!2;G(92;()6!*(,+6(1!60!6>(!G00*!G>712<+,!,+70:6!05!;+)7!,(.(,!<*0112)31! K(.()!0552<2+,!<*0112)31L!2)!O2(6!P+;#!@)!2)1G(<620)!05!,(.(,!<*0112)31!10:6>!05!<()6*+,! h+)02R!9:*2)3!6>(!U4/@S!;21120)R!2)92<+6(9B! ! #$ 1(.(*(,7! *(16*2<6(9! 6*+(! +GG*0+<>(1! 60! ;016! 05! 6>(! <*0112)31!.2126(9#!8)!10;(!<+1(1R!26!A+1!)06!G0112H,(!50*!;060*2161!60! >+.(!+!<,(+*!.2(A!05!6>(!6*+!92*(<620)1!:)62,!6>(7!>+9!)(+*,7! ()6(*(9!6>(!<*0112)3!K1((!S>0603*+G>1!&!+)9!%R!G+3(!=%Lf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

! =&! ! Photograph 2

Photograph 3 Photograph 4

Photograph 5 2.6 Level crossing safety in Bangladesh, Philippines and Thailand

2.6.1 Level crossing safety record

(a) Accidents

T+H,(! &#&%! 1>0A1! 9+6+! 0)! ,(.(,! <*0112)3! +<<29()61! 50*! 6>(! *+2,A+7! 0*3+)2a+620)1!05!Q+)3,+9(1>R!6>(!S>2,2GG2)(1!+)9!T>+2,+)9#!

Table 2.23: Level crossing accidents, 1988-1998 r(+*! Q+)3,+9(1>! S>2,2GG2)(1! T>+2,+)9! $INN! $D! ! ! $INI! ?! ! ! $IIJ! $J! ! ! $II$! ?! ! ! $II&! I! ! ! $II%! $J! ! ! $II=! $=! ! ! $IID! $D! ! ! $IIF! I! ! ! $II?! &%! ! ! $IIN! $?! ! ! T06+,!! $%F! =FF! =RFNN!

Source: Questionnaire responses, Bangladesh, Philippines and Thailand.

-(.(,! <*0112)3! +<<29()61! *(G*(1()6! +! 1:H16+)62+,,7! >23>! G*0G0*620)! 05! +,,! *+2,A+7!+<<29()61!2)!T>+2,+)9!KI=#F!G(*!<()6!H(6A(()!$INN!+)9!$IINLR!H:6!+!;2)0*! G*0G0*620)!05!+,,!*+2,A+7!+<<29()61!2)!6>(!S>2,2GG2)(1!K&I#F!G(*!<()6!H(6A(()!$INN!+)9! $IINLR!+)9!+)!(.()!;0*(!;09(16!G*0G0*620)!05!+,,!*+2,A+7!+<<29()61!2)!Q+)3,+9(1>! K%#N!G(*!<()6!H(6A(()!$INN!+)9!$IINL#! ! c>()!<0;G+*(9!A26>!6>(!.0,:;(!05!6*+552(!*+6(!05!,(.(,!<*0112)3!+<<29()61!2)!Q+)3,+9(1>!21!E:26(!>23>!KJ#?=!G(*!;2,,20)!6*+2)_ Z;! 50*! 6>(! 1(.()! 7(+*! G(*209! $INN_$IIDLR! H:6! 21! 2)123)252<+)6! +1! <0;G+*(9! A26>! T>+2,+)9! K$&#I! G(*! ;2,,20)! 6*+2)_Z;! 50*! 6>(! 52.(! 7(+*! G(*209! $II$_$IIDL#! P0! <0;G+*+H,(!9+6+!A(*(!+.+2,+H,(!50*!6>(!S>2,2GG2)(1#! ! (b) Fatalities

! 8)! T>+2,+)9R! 5+6+,262(1! 2)! ,(.(,! <*0112)3! +<<29()61! *(G*(1()6! 6>(! .+16! ;+\0*267! KI&! G(*! <()6L! 05! +,,! 9(+6>1! 2)! +,,! 67G(1! 05! *+2,A+7! +<<29()61! 6>*0:3>0:6! 6>(! *+2,A+7! )(6A0*Z#!8)!Q+)3,+9(1>R!5+6+,262(1!2)!,(.(,!<*0112)3!+<<29()61!*(G*(1()6!=F!G(*!<()6!05! 9(+6>1! 2)! +,,! 67G(1! 05! *+2,A+7! +<<29()61! d! +! ;:<>! >23>(*! G*0G0*620)! 6>+)! 6>(! G*0G0*620)!05!,(.(,!<*0112)3!+<<29()61!2)!606+,!*+2,A+7!+<<29()61R!G0112H,7!H(<+:1(!05!

! =D! ! 6>(!>(+.7!2)<29()<(!05!H:1!+<<29()61!2)!6>(!*+2,A+7!+<<29()6!606+,#!8)!6>(!S>2,2GG2)(1R! >0A(.(*R!,(.(,!<*0112)3!+<<29()61!+<<0:)6!50*!0),7!D!G(*!<()6!05!6>(!606+,!):;H(*!05! 5+6+,262(1!2)!*+2,A+7!+<<29()61#! ! Table 2.24: Level crossing fatalities, 1988-1998 r(+*! Q+)3,+9(1>! S>2,2GG2)(1! T>+2,+)9! $INN! =! ! ! $INI! N! ! ! $IIJ! D! ! ! $II$! =! ! ! $II&! $&! ! ! $II%! =! ! ! $II=! $F! ! ! $IID! &D! ! ! $IIF! $F! ! ! $II?! $J! ! ! $IIN! $N! ! ! T06+,!! $&&! =! =$=!

Source: Questionnaire responses, Bangladesh, Philippines and Thailand.

! @3+2)R! A>()! *(,+6(9! 60! 6*+552(! ,(.(,! <*0112)3! 5+6+,267! *+6(! 2)! T>+2,+)9! 21! 9216:*H2)3,7! >23>! d! $#JD! G(*! ;2,,20)! 6*+2)! Z2,0;(6*(1! d! H:6! (.()! +6! 6>21! ,(.(,R!6>(!T>+2!5+6+,267!*+6(!21!0),7!+H0:6!0)(!5256>!05!6>(!*+6(!(VG(*2()<(9!H7!O2(6!P+;R! A>2<>! >+1! 6>(! A0*16! ,(.(,! <*0112)3! 1+5(67! *(<0*9! 05! +)7! <0:)6*7! *(.2(A(9! 2)! 6>21! 16:97#! 8)! Q+)3,+9(1>R! 6>(! 5+6+,267! *+6(! +.(*+3(9! J#FF! G(*! ;2,,20)! 6*+2)! Z2,0;(6*(1R! 10;(A>+6!,0A(*!6>+)!6>(!+<<29()6!*+6(#!P0!<0;G+*+H,(!9+6+!A(*(!+.+2,+H,(!50*!6>(! S>2,2GG2)(1#! ! (c) Injuries

8)! T>+2,+)9R! 6>(! ):;H(*! 05! G(*10)1! 2)\:*(9! 2)! ,(.(,! <*0112)3! +<<29()61! *(G*(1()61! 6>(! ;+\0*! G*0G0*620)! K?F! G(*! <()6L! 05! +,,! G(*10)1! 2)\:*(9! 2)! +,,! *+2,A+7! +<<29()61!6>*0:3>0:6!6>(!1716(;R!A>2,(!2)!Q+)3,+9(1>!6>(!G(*<()6+3(!2)\:*(9!2)!,(.(,! <*0112)3!+<<29()61!21!==!G(*!<()6!+)9!2)!6>(!S>2,2GG2)(1!%$!G(*!<()6#!!

! =F! ! Table 2.25: Level crossing injuries, 1988-1998 r(+*! Q+)3,+9(1>! S>2,2GG2)(1! T>+2,+)9! $INN! $I! ! ! $INI! $F! ! ! $IIJ! %?! ! ! $II$! %F! ! ! $II&! %I! ! ! $II%! $I! ! ! $II=! FJ! ! ! $IID! F%! ! ! $IIF! %J! ! ! $II?! %?! ! ! $IIN! DN! ! ! T06+,!! =$=! =F&! $RJNN!

Source: Questionnaire responses, Bangladesh, Philippines and Thailand. ! ! T>(!<0;G+*+62.(!+)+,7121!05!,(.(,!<*0112)3!1+5(67!G(*50*;+)<(!2)!6>(1(!6>*((! <0:)6*2(1! +)9! +,10! 2)! O2(6! P+;! >+1! 60! H(! 6(;G(*(9! H7! 6>(! 5+<6! 6>+6! ;060*2a+620)! ,(.(,1!2)!T>+2,+)9!+*(!;+)7!62;(1!3*(+6(*!6>+)!6>(7!+*(!2)!Q+)3,+9(1>!+)9!2)!O2(6! P+;!+)9!1(.(*+,!62;(1!3*(+6(*!6>+)!6>(7!+*(!2)!6>(!S>2,2GG2)(1#! ! 2.6.2 Level crossing characteristics and effectiveness

(a) Number and density of level crossings

Y+6+! G*0.29(9! H7! 6>(! *+2,A+7! 1716(;1! 05! Q+)3,+9(1>R! 6>(! S>2,2GG2)(1! +)9! T>+2,+)9!2)92<+6(!6>(!50,,0A2)3!,(.(,!<*0112)3!G0G:,+620)1R!H7!67G(R!0)!(+<>!)(6A0*ZB! ! Table 2.26: Density of level crossings and number, by type

Route length/type of level crossing Bangladesh Philippines Thailand C0:6(_Z;! &R?%=! =N=! =RJ=$! e552<2+,!d!G*06(<6(9R!)0#!! =J&! =I! =F?! e552<2+,!d!:)G*06(<6(9R!)0#! I&F! $F$! $R$=D! W)0552<2+,!K:)G*06(<6(9LR!)0#! N&$! IN! F&D! T06+,! &R$=I! %JN! &R&%?! -(.(,!<*0112)3!9()1267R!)0#!G(*!Z;! J#?I! J#F=! J#DD! -(.(,!<*0112)3!1G+<2)3R!0)(!(.(*7!x!Z;!!! $#%! $#F! $#N!

Source: Questionnaire responses, Bangladesh, Philippines and Thailand. !

! =?! ! e5!6>(!6>*((!<0:)6*2(1!*(.2(A(9R!Q+)3,+9(1>!>+1!6>(!3*(+6(16!9()1267!05!,(.(,! <*0112)31!K0)(!(.(*7!$#%!Z;L!+)9!6>(!>23>(16!G(*<()6+3(!05!:)0552<2+,!<*0112)31!K%N! G(*!<()6L#!/:*20:1,7!+)9!<0).(*1(,7!60!A>+6!;23>6!H(!(VG(<6(9R!6>(1(!<>+*+<6(*2162<1! +*(! )06! *(5,(<6(9! 2)! >23>(*! +<<29()6R! 5+6+,267! +)9! 2)\:*7! *+6(1! d! A>2<>!;23>6! 1:33(16! 6>+6! 6>(! 1+5(67! G(*50*;+)<(! 9+6+! +*(! :)9(*16+6(9#! M0*! (V+;G,(R! 26! >+1! 60! H(! E:(1620)(9! A>(6>(*! *+2,A+7! 1+5(67! 16+62162<1! <+G6:*(! 5:,,! 9(6+2,1! 05! 6>(! ):;H(*1! 05! road usersR! +1! 92162)<6! 5*0;! *+2,A+7! G+11()3(*1R! Z2,,(9! 0*! 1(*20:1,7! 2)\:*(9! 2)! ,(.(,! <*0112)3!+<<29()61#!!! ! P0)(!05!6>(!+H0.(!6>*((!*+2,A+7!1716(;1!>+1!A>+6!;23>6!H(!<0)129(*(9!+)! +<<(G6+H,(! G(*<()6+3(! 05! G*06(<6(9! ,(.(,! <*0112)31#! h0A(.(*R! 26! 21! 123)252<+)6! 6>+6! T>+2,+)9!A26>!0),7!&$!G(*!<()6!05!261!,(.(,!<*0112)31!G*06(<6(9!>+9!:)+<<(G6+H,7!>23>! +<<29()6!+)9!<+1:+,67!*+6(1#!! !! !!! (b) Technical characteristics of level crossings

T+H,(!&#&?!G*0.29(1!9(6+2,1!05!6>(!,(.(,!<*0112)31!05!Q+)3,+9(1>R!S>2,2GG2)(1! +)9!T>+2,+)9!<,+11252(9!+<<0*92)3!60!6>(2*!(E:2G;()6!+)9!;+))2)3!16+6:1#!Nearly all protected crossings in these countries are manned.! e),7! T>+2,+)9! >+1! +! 123)252<+)6!):;H(*!05!0G()!<*0112)31!(E:2GG(9!0),7!A26>!5,+1>2)3!,23>61!+)9!+:92H,(! A+*)2)3!9(.2<(1#! ! P0! 9(6+2,1! 05! 6>(! +<<29()6g<+1:+,67! >2160*2(1! 05! 6>(1(! .+*20:1! 67G(1! 05! ,(.(,! <*0112)31!A(*(!G*0.29(9R!10!6>+6!26!A+1!)06!G0112H,(!60!;+Z(!+)7!9(52)262.(!<0;;()6! 0)!6>(2*!1+5(67!(55(<62.()(11#! ! Y:*2)3!$IIIR!T>+2,+)9!H*0:3>6!2)60!1(*.2<(!6>(!52*16!$=!05!+!)(A!67G(!05!,(.(,! <*0112)3! (E:2GG(9! A26>! H+**2(*1R! 5,+1>2)3! ,23>61! +)9! +:92H,(! A+*)2)3! 9(.2<(1! +)9! <,01(9! <2*<:26! 6(,(.2120)! K//TOL! +,,0A2)3! <0)6*0,! 5*0;! +! *(;06(! ,0<+620)#! 86! 21! :)9(*16009!6>+6!6>21!1716(;!21!12;2,+*!60!6>(!Q*2621>![/Qg//TO!K[+):+,,7!<0)6*0,,(9! H+**2(*1!A26>!//TOL!167,(!05!<*0112)3#!T>(!+GG+*()6!+9.+)6+3(!05!6>21!1716(;!21!6>+6! 26! A0:,9! G(*;26! manual control 05! 0)(! 0*! ;0*(! <*0112)31! 5*0;! +! 12)3,(! ,0<+620)R! *(1:,62)3! 2)! 16+55! 1+.2)31! +)9! *(9:<(9! 0G(*+62)3! <016#! 861! 921+9.+)6+3(! ;23>6! +*21(! 5*0;! 6>(! 5+<6! 6>+6! ,(.(,! <*0112)3! 16+55! A0:,9! )06! H(! 0)! >+)9! 60! *(1G0)9! 2)! +)! (;(*3()<7#!

! =N! ! Table 2.27: Level crossing population, by technical classification

Country/Railway Crossing type – description Number on System system (as at June 1999) Q+)3,+9(1>n! [(<>+)2<+,!5:,,!A296>!,2562)3!H+**2(*!!!K;+))(9L! $&%! ! [(<>+)2<+,!>+,5!A296>!,2562)3!H+**2(*!!K;+))(9L! &&! ! U,(<6*2<+,!+)9!;(<>+)2<+,!>+,5!A296>!,2562)3!H+**2(*!K;+))(9L! F! ! [(<>+)2<+,!5:,,!A296>!1A2)32)3!3+6(!!K;+))(9L! &D$! ! Total, protected 402 S>2,2GG2)(1! [(<>+)2<+,!H+**2(*!A26>!5,+1>2)3!,23>61R!H(,,1!+)9!52V(9!*0+9!123)1!K;+))(9L! =! ! [(<>+)2<+,!H+**2(*!A26>!H(,,1!+)9!52V(9!*0+9!123)1!!K;+))(9L! N! ! [(<>+)2<+,!H+**2(*!A26>!5,+1>2)3!,23>61!+)9!52V(9!*0+9!123)1!K;+))(9L! $! ! [(<>+)2<+,!H+**2(*!A26>!52V(9!*0+9!123)1!K;+))(9L! $=! ! P0!H+**2(*R!H(,,1!+)9!52V(9!*0+9!123)1!0),7!K;+))(9L! %! ! M2V(9!*0+9!A+*)2)3!123)1!0),7!!K;+))(9L! $N! ! Total, protected 48 ! M2V(9!*0+9!A+*)2)3!123)1!0),7!K:);+))(9L! $%D! ! @:60;+622)3!,23>61!+)9!H(,,1!A26>!52V(9!*0+9!123)1!K:);+))(9L! $! ! @:60;+62+2,+)9! U,(<6*2<+,!5:,,!0*!>+,5!A296>!,2562)3!H+**2(*!A26>!*(;06(!<0)6*0,!+)9!//TO!K;+):+,L! $=! ! U,(<6*2<+,!5:,,!0*!>+,5!A296>!,2562)3!H+**2(*!K;+):+,L! $J=! ! [(<>+)2<+,!5:,,!0*!>+,5!A296>!,2562)3!H+**2(*!K;+):+,L! %=! ! [(<>+)2<+,!5:,,!0*!>+,5!A296>!>02162)3!H+**2(*!K;+):+,L! &%J! ! 4,292)3!6*0,,(7!3+6(!K;+):+,L! $F!! ! @:60;+62+,5!A296>!,2562)3!H+**2(*!K:);+))(9L! F=! ! Total, protected =F&! ! eG()!<*0112)3!A26>!+:60;+622)3!A+*)2)3!,23>6!0),7!K:);+))(9L! %$! ! M2V(9!*0+9!A+*)2)3!123)1!0),7!K:);+))(9L! $R$$%! ! Total, unprotected $R$==! ! Grand Total, official crossings 1,606

Source: Questionnaire responses, Bangladesh, Philippines and Thailand. * In the absence of details of unprotected level crossings in Bangladesh, it was assumed that they are all unmanned without any form of equipment or signage.

2.6.3 Level crossing system evaluation techniques

8)! Q+)3,+9(1>R! ,(.(,! <*0112)3! 2)16+,,+620)! +)9! :G3*+92)3! G*20*262(1! +*(! (16+H,21>(9! 0)! 6>(! H+121! 05! 6>(! assumed *0+9! +)9! *+2,! 6*+552(!Q+)3,+9(1>!C+2,A+7!90(1!)06!6+Z(!<0:)61!05!*0+9!6*+552(! S>2,2GG2)(1! *+2,A+7! 16+55! 90! )06! 6+Z(! *0+9! 6*+552(*!21!6>21!2)50*;+620)!50*6><0;2)3!5*0;!6>(!>23>A+7!+:6>0*262(1#!!/0)1(E:()6,7R! G*20*262(1!!50*!!6>(!!2)16+,,+620)!!05!!)(A!!,(.(,!!<*0112)31!!0*!6>(!!:G3*+92)3!!05!!(V2162)3

! =I! ! <*0112)31!+*(!)06!(16+H,21>(9!0)!6>(!H+121!05!(VG(<6(9!*0+9!+)9!*+2,!6*+552(*R!6>(!S>2,2GG2)(!P+620)+,!C+2,A+71!+GG,2(1!<*26(*2+!H+1(9!0)!6>(!,0<+620)!05!+! <*0112)3#! M0*! (V+;G,(R! 25! 6>(! <*0112)3! 21! ,0<+6(9! 2)129(! [(6*0! [+)2,+! 26! ;:16! H(! 16+55(9! +)9! +6! ;2)2;:;! (E:2GG(9! A26>! ,2562)3! H+**2(*1! 5,+1>2)3! ,23>61! +)9! 52V(9! *0+9! A+*)2)3! 123)1#! e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g*+2,! 2)6(*1(<620)1#! T>(! 9(<2120)! <*26(*2+! :1(9! H7! 6>(! 4CT! +)9! H+1(9! 0)! T[! 2)92<+60*1!50*!2)92.29:+,!<*0112)31!+*(!+1!50,,0A1B! !

TM Range! Indicated type of crossing! !! T[!'!$JRJJJ! M2V(9!*0+9!A+*)2)3!123)1!0),7! !$JRJJJ!q!T[!'!$JJRJJJ! [+):+,!H+**2(*1! !$JJRJJJ!q!T[! C0+9!0.(*G+11!0*!:)9(*G+11! ! 86! +GG(+*1! >0A(.(*! 6>+6! 6>(1(! 9(<2120)! <*26(*2+! >+.(! )06! H(()! *230*0:1,7! +GG,2(9!9:(!;+2),7!60!5:)92)3!1>0*6+3(1#!T>(!9(<2120)!6+Z()!)(+*,7!6>*((!7(+*1!+30! 60!<+)<(,!+!;+112.(!6*+(!h0G(A(,,!G*0\(<6L!>+1! <0;G0:)9(9!6>(!G*0H,(;!05!*(10,.2)3!*0+9!+)9!*+2,!<0)5,2<61!2)129(!0)(!05!40:6>(+16! @12+j1!;016!<0)3(16(9!<262(1#!

! DJ! ! CHAPTER 3: RAILWAY LEVEL CROSSING SAFETY EXPERIENCE AND ENHANCEMENT IN DEVELOPED COUNTRIES

3.1 General ! @1! A+1! 0H1(*.(9! 2)! />+G6(*! &R! +<<29()61! +6! *+2,A+7! ,(.(,! <*0112)31! <,(+*,7! 90;2)+6(!6>(!*+2,A+7!+<<29()6!G2<6:*(!2)!@12+#!P06!0),7!+*(!6>(7!90;2)+)6!2)!6(*;1!05! 5*(E:()<7R!H:6!6>(7!<+)!H(!;0*(!1(.(*(!2)!6>(2*!<0)1(E:()<(1!6>+)!06>(*!67G(1!05! *+2,A+7! +<<29()61R! 12;G,7! H(<+:1(! 6>(7! <+)! 2).0,.(! 2)\:*2(1! +)9! 5+6+,262(1! 60! *+2,A+7! G+11()3(*1! +1! A(,,! +1! 60! *0+9! .(>2<,(! 0<<:G+)61! +)9! 06>(*! :1(*1! 05! *+2,A+7! ,(.(,! <*0112)31#! Y(G()92)3! :G0)! 6>(! 12a(! +)9! A(23>6! 05! *0+9! .(>2<,(1! 2).0,.(9! 2)! ,(.(,! <*0112)3! +<<29()61R! +1! A(,,! +1! 6>(! 50*<(! 05! 2;G+<6R! 6*+2)1! +*(! 056()! +6! *21Z! 05! 9(*+2,;()6!K0*!+6!6>(!.(*7!,(+16R!05!<0;G*(112.(!9(16*:<620)L!:G0)!2;G+<6!A26>!*0+9! .(>2<,(1R!A26>!6>(!G0112H2,267!6>+6!6>(!,2.(1!05!6>(!G+11()3(*1!0)!6>(!6*+2)R!+1!A(,,!+1! 6>01(!05!*0+9!.(>2<,(1R!+*(!()9+)3(*(9#!! ! P(.(*6>(,(11R! 6>(! +11(11;()6! 05! 1+5(67! ()>+)<(;()6! ;(+1:*(1! 50*! ,(.(,! <*0112)31! 21R! +)9! 1>0:,9! H(R! 2)! )0! A+7! 1(G+*+6(! 5*0;! 6>(! +11(11;()6! 6(<>)2E:(1! :1(9! +<*011! 6>(! H*0+9! 1G(<6*:;! 05! +<<29()6! 67G(1! H06>! 50*! *+2,A+71! +)9! 06>(*! 6*+)1G0*6! ;09(1#! 8)! G+*62<:,+*R! 6>(! <0)<(G6! 05! risk management! 21! +1! +GG,2<+H,(! 60! ,(.(,!<*0112)3!1+5(67!+1!26!21!60!06>(*!*+2,A+7!1+5(67!211:(1#! ! [:<>!<+)!H(!,(+*)(9!5*0;!6>(!(VG(*2()<(!05!6>(!*+2,A+71!05!6>(!W)26(9!46+6(1R! <0)62)()6+,! U:*0G(R! 6>(! W)26(9! X2)390;R! +)9! ]+G+)! 2)! 9(.(,0G2)3! +! 1:26+H,(! ;(6>090,037!50*!+11(112)3!,(.(,!<*0112)3!1+5(67!+)9!1+5(67!()>+)<(;()6!;(+1:*(1#!! T>(*(! +*(! 5(A! <0:)6*2(1! A>2<>! >+.(! +<>2(.(9!;0*(! 2)! 6>21! <0)6(V6! 6>+)! 6>(! W)26(9! X2)390;!A>(*(R!0.(*!6>(!7(+*1R!+)!2)<*(+12)3!G*(;2:;!>+1!H(()!G,+<(9!0)!6>(!)((9! 50*!()1:*2)3!3*(+6(*!1+5(67!+6!6>(!2)6(*5+<(!05!*+2,!+)9!*0+9!6*+)1G0*6#! ! ! 3.2 Some definitions

42)<(!;(+1:*(1!50*!*+2,A+7!1+5(67!()>+)<(;()6!2)<*(+12)3,7!9(G()9!:G0)!+! G*20*! +11(11;()6! 05! *21Z! +)9! 05! 6>(! G06()62+,! 50*! *21Z! *(9:<620)R! +! 5(A! 9(52)2620)1! *(,+62)3!60!*21Z!;+)+3(;()6!+*(!2)!0*9(*#! ! M2*16, risk! 21! 6>(! G*0H+H2,267! 6>+6! +! 1+5(67! >+a+*9! A2,,! *(1:,6! 2)! +)! +<<29()6! 2).0,.2)3!<+1:+,62(1!K,011!05!,25(R!2)\:*7!0*!G*0G(*67!9+;+3(L#! ! @! safety hazard 21! +)! +<62.267R! <0;H2)+620)! 05! +<62.262(1R! 0*! 1(6! 05! <2*<:;16+)<(1! A>2<>! <0:,9! G*09:<(! +)! +<<29()6#! T>(! U)32)((*2)3! 4+5(67! [+)+3(;()6!3:29(,2)(1!05!C+2,6*+(!G*2.+621(9!*+2,A+7!2)5*+16*:<6:*(!G*0.29(*!2)! 6>(! W)26(9! X2)390;L! 9(52)(! +! >+a+*9! +1! +! k16+6(! 0*! (.()6! A26>! 6>(! <+G+H2,267! 05! <+:12)3! >+*;l#! 8)! 6>(! <+1(! 05! ,(.(,! <*0112)3! +<<29()61! +! <0;H2)+620)! 05! ().2*0);()6+,! 5+<60*1! K6>(! G>712<+,! 1(662)3L! +)9! +<62.262(1! <+)! G*0.29(! 6>(! <2*<:;16+)<(1!A>2<>!;+7!6*233(*!+<<29()61#!M0*!(V+;G,(R!+!,(.(,!<*0112)3!G*06(<6(9! 0),7! H7! 5,+1>2)3! ,23>61! +)9! 2).0,.2)3! +! *0+9! <*0112)3! 05! 6>(! *+2,A+7! 6*+(!<2*<:;16+)<(1!50*!+)!+<<29()6R!H:6!0),7!25!;060*!.(>2<,(! 9*2.(*1!+GG*0+<>!6>(!<*0112)3!+6!1G((9!A26>0:6!6>(!2)6()620)!60!160G!+6!6>(!,23>61!and 25!6>(2*!+**2.+,!+6!6>(!<*0112)3!>+GG()1!60!<02)<29(!A26>!6>+6!05!+!6*+2)#! !

D$! 4+5(67! >+a+*91! >+.(! +110<2+6(9! A26>! 6>(;! )0620)1! 05! 6>(! frequency +)9! consequences 05!+<<29()61#!!Frequency ;+7!H(!(VG*(11(9!2)!6(*;1!05!6>(!):;H(*! 05! +<<29()61! 05! +! 32.()! 67G(! G(*! :)26! 05! 62;(! 0*! G(*! :)26! 05! *+2,! 6*+55223>!G*0H+H2,267!0*!*21Z!05!+<<29()61!A2,,!H(!*(5,(<6(9!2)!+!>23>!+<<29()6! 5*(E:()<7#! @<<29()6! consequences! +*(! 6>(! *(1:,61! 05! +<<29()61! 2)! 6(*;1! 05! 6>(! ):;H(*! 05! G(*10)1! Z2,,(9! 0*! 2)\:*(9R! 0*! 05! G*0G(*67! 9+;+3(R! 9(+6>1! +)9! 2)\:*7! 05! +)2;+,1R!(6<#! ! C21Z!;+7!H(!1:H92.29(9!2)60!6>*((!<+6(30*2(1B! ! #$ Individual risk, A>2<>! 21! 6>(! +)):+,! G*0H+H2,267! 05! 9(+6>! 50*! +! 1G(<2522<,(!9*2.(*f! !! #$ Societal risk, A>2<>!21!6>(!*21Z!50*!6>(!(VG01(9!G0G:,+620)!+1!+!A>0,(R! 2)<,:92)3! 6>(! G06()62+,! 50*! 32.()! >+a+*91! 60! <+:1(! ;:,62G,(! 5+6+,262(1f! +)9! ! #$ Collective riskR! A>2<>! 21! 6>(! *21Z! +110<2+6(9! A26>! 6>(! 606+,! ):;H(*! 05! 5+6+,262(1!G(*!+)):;!+66*2H:6+H,(!+,,!60!29()6252(9!>+a+*91#! ! T>(! <0)<(G6! 05! kUE:2.+,()6! M+6+,262(1l! 21! 056()! :1(9! 2)! (162;+62)3! 6>(! +H0.(! *21Z1#!T>21!<0)<(G6!<0;H2)(1!5+6+,262(1R!;+\0*!+)9!;2)0*!2)\:*2(1!2)60!+!12)3,(!0.(*+,,! <+1:+,67!(162;+6(!H7!+11:;2)3!K67G2<+,,7L!6>+6!$J!;+\0*!2)\:*2(1!0*!&JJ!;2)0*!2)\:*2(1! +*(!(E:2.+,()6!60!+!12)3,(!5+6+,267#! ! C21Z! <+)! H(! ;+)+3(9! H7! *(9:<2)3! (26>(*! 6>(! +<<29()6! 5*(E:()<2(1! 0*! <0)1(E:()<(1!K0*!H06>L!+110<2+6(9!A26>!32.()!>+a+*91#!h0A(.(*R!26!>+1!60!H(!)06(9! 6>+6! 6>(! *21Z1! +110<2+6(9! A26>! ;016! >+a+*91! +*(! 52)26(! d! 2#(#! 6>(7! <+)! )(.(*! H(! <0;G,(6(,7! (,2;2)+6(9#! M:*6>(*R! 6>(*(! 21! +! G02)6! 2)! 6>(! ;+)+3(;()6! 05! *21Z! H(70)9! A>2<>! 5:*6>(*! ;(+1:*(1! H(<0;(! 2;G*+<62<+,! 2)! 6>(! 1()1(! 6>+6! 6>(! <0161! 05! 6>(2*! 2;G,(;()6+620)! A2,,! (V<((9! 6>(! ;0)(6+*7! .+,:(! 05! 6>(! H()(5261! 6>(7! <+)! G*0.29(#=!! T>21! 21! +! 5+<6! A>2<>! >+1! H(()! +<<(G6(9! 2)! 6>(! W)26(9! X2)390;! H:6! )06! 0)! 6>(! U:*0G(+)!<0)62)()6!+1!A2,,!H(!921<:11(9!2)!+!,+6(*!1(<620)#! ! ! 3.3 Experience of the United Kingdom in safety management ! 8)! 6>(! W)26(9! X2)390;R! +9;2)216*+620)! 05! 1+5(67! G0,2<7! +)9! 16+)9+*91! 2)! 6>(! G:H,2(! *(1G0)12H2,267! 05! 6>(! h(+,6>! +)9! 4+5(67! UV(<:62.(! Kh4UL#! h0A(.(*R!:)62,!.(*7!*(<()6,7R!+:6>0*267!50*!*+2,A+7!1+5(67!;+)+3(;()6!>+1!H(()!6>+6! 05!6>(!2)5*+16*:<6:*(!0A)(*!d!2)262+,,7R!Q*2621>!C+2,!+)9!,+66(*,7R!C+2,6*+!6>(! h4U! ()1:*2)3! 6>+6! 1+5(67! G0,2<7! 3:29(,2)(1! +)9! 16+)9+*91! +*(! 0H1(*.(9#D!T>(! 16+6:60*7! 2)16*:;()6! A>2<>! 32.(1! 6>(! h4U! 261! ;+)9+6(! 21! 6>(! h(+,6>! +)9! 4+5(67! +6! c0*Z!@<6!05!$I?=#!T>21!@<6!2;G01(1!+!k9:67!05!<+*(l!0)!(;G,07(*1!+)9!*(E:2*(1!6>(;! 60! ;+)+3(! 6>(2*! +<62.262(1! 2)! 1:<>! +! A+7! 6>+6! 6>(! 1+5(67! *21Z1! 2;G01(9! H7! 6>(1(! +<62.262(1!+*(!“as low as is reasonably practical”.

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! =! @)9*(A! ]! 4;26>, Managing Safety Through Identifying, assessing, Mitigating and Monitoring Risk, G+G(*!G*(1()6(9!+6!!4+5(67!0)!U:*0G(+)!C+2,A+71!/0)5(*()<(R!!-0)90)R!! !!!=!Y(<(;H(*!$II?#! !! D!e)!$J!e<60H(*!$IIIR!52.(!9+71!+56(*!6A0!6*+2)1!<0,,29(9!0)!6>(!;+2)!A(16(*)!,2)(!+6!-+9H*0Z(! '*0.(!)(+*!S+992)360)!46+620)R!6>(!Q*2621>!'0.(*);()6!+))0:)<(9!6>+6!C+2,6*+0*267! 50*!1+5(67!;+)+3(;()6!A0:,9!H(!A26>9*+A)!+)9!32.()!60!+)!+1!7(6!:)_)+;(9!0*3+)2a+620)#!

D&! [0*(!A2,,!H(!1+29!+H0:6!6>(!;(+)2)3!+)9!G*+<62<+,!+GG,2<+620)!05!6>(1(!A0*91R! H:6! 26! 21! 52*16! :1(5:,! 60! )06(! 6>+6! +! 5:)9+;()6+,! <>+)3(! 2)! 6>(! G>2,010G>7! 05! 1+5(67! ;+)+3(;()6!2)!*+2,A+71!0<<:**(9!2)!6>(!W)26(9!X2)390;!2)!6>(!,+6(!$INJj1#!S*20*!60! 6>21!62;(R!6>(!3:292)3!G>2,010G>7!A+1!0)(!05!k1+5(67!52*16R!+6!+)7!G*2<(l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change in the philosophy of railway safety management ! 86! 600Z! +! <+6+16*0G>2+;!\:)<620)!2)!40:6>!-0)90)!2)!Y(<(;H(*!$INN!60!H*2)3!+H0:6!+!5:)9+;()6+,! <>+)3(!2)!6>(!A+7!*+2,A+7!1+5(67!21!;+)+3(9!2)!6>(!W)26(9!X2)390;#!T>21!+<<29()6! A>2<>! <,+2;(9! 6>(! ,2.(1! 05! %D! G+11()3(*1! A+1! +66*2H:6(9! 60! +! 123)+,! 5+2,:*(#! 86! A+1! <0)129(*(9! 6>+6! 6>(! 1:H16+)62+,! ,011! 05! ,25(! +)9! 2)\:*2(1! *(1:,62)3! 5*0;! 6>21! +<<29()6! <0:,9!>+.(!H(()!+.029(9!>+9!+)!@:60;+62(!,2)(1!2)60!/,+G>+;!]:)<620)#!!U11()62+,,7R!+)!@TS!1716(;!A+*)1!+!9*2.(*! 60!1,0A!90A)!0*!60!160G!+)9!A>()!6>+6!A+*)2)3!21!)06!>((9(9R!6>(!1716(;!G*0.29(1! 5:*6>(*!+:92H,(!+)9!.21:+,!A+*)2)31R!H(50*(!+:60;+62<+,,7!+GG,72)3!6>(!H*+Z(1#! ! T>(! 2)E:2*7! 2)60! 6>(! /,+G>+;! ]:)<620)! +<<29()6R! <>+2*(9! H7! 42*! @)6>0)7! h299()! ^/R! *(<0;;()9(9! 6>+6! Q*2621>! C+2,! 1>0:,9! +<<(,(*+6(! 6>(! G*03*+;;(! 0)! A>2<>!26!>+9!(;H+*Z(9!0)(!;0)6>!H(50*(!6>(!+<<29()6!60!9(.(,0G!+)!@TS!1716(;!50*! 2)16+,,+620)! 6>*0:3>0:6! 261! )(6A0*Z#F! T>(! 0*232)+,! G*03*+;;(! >+9! H(()! +2;(9! +6! 2;G,(;()6+620)! 05! @TS! A26>2)! 52.(! 7(+*1R! H:6! 6>21! 62;(5*+;(! A+1! <0)129(*(9! H7! h299()!60!H(!(V<(112.(#! ! @)!:)2)6()9(9!<0)1(E:()<(!05!6>(!h299()!C(G0*6!A+1!6>+6!6>01(!*(1G0)12H,(! 50*! 1+5(67! ;+)+3(;()6! 0)! 6>(! Q*2621>! C+2,! )(6A0*Z! H(3+)! 1(*20:1,7! 60! E:(1620)! A>(6>(*! h299()! >+9! H(()! <0**(<6! 60! *(<0;;()9! @TS! 2)! 6>(! 52*16! G,+<(#! T>(2*! <>+,,()3(! 60! 6>(! >26>(*60! +<<(G6(9! A2190;! 05! 2;G,(;()62)3! 1+5(67! 2;G*0.(;()6! ;(+1:*(1! A26>0:6! 52)+)<2+,! \:16252<+620)! K+1! 2;G,2(9! 2)! 6>(! *(<0;;()9+620)1! 05! 6>(! h299()!*(G0*6L!A+1!H+1(9!0)!<0)<(*)1!+H0:6!6>(!9+:)62)3!1<+,(!05!6>(!2).(16;()6! *(E:2*(9! 50*! 5:,,! 2)16+,,+620)! 05! @TS#! @! *(.2(A! 05! 6>(! G*0G01(9! @TS! 2)16+,,+620)! G*03*+;;(! KG016! 6>(! /,+G>+;! ]:)<620)! +<<29()6L! *(1:,6(9! 2)! +)! (162;+6(9! 2)16+,,+620)!62;(5*+;(!05!$J!7(+*1R!)06!D!7(+*1!+1!*(<0;;()9(9!H7!h299()R!A26>!6>(! 50,,0A2)3!<0161B! ! Table 3.1: Costs of ATP (₤ million)! ! 8)16+,,+620)!K$J!7(+*!62;(5*+;(L! D=D! eG(*+62)3!+)9!;+2)6()+)<(!K&J!7(+*!62;(5*+;(L! &NJ! Total 825 ! Source: Modern Railways, 4(G6(;H(*!$II=#! ! Q7!(V6*+G0,+62)3!>2160*2<+,!9+6+R!26!A+1!+,10!<+,<:,+6(9!6>+6!@TS!A0:,9!+.029! D&! (E:2.+,()6! 5+6+,262(1! K+<6:+,! 5+6+,262(1! +)9! 1(*20:1! 2)\:*2(1! <0)129(*(9! 60! H(!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! F!“ATP unaffordable-official” 2)![09(*)!C+2,A+71R!O0,#D$R!P0#DD&R!4(G6(;H(*!$II=#!

D%! (E:2.+,()6! 60! 5+6+,262(1L! 0.(*! +! 6A()67_7(+*! G(*209#! @56(*! +,,0A+)<(! 50*! 6>(! +.029(9! <016!05!*+2,A+7!+11(6!+)9!G*0G(*67!9+;+3(R!+1!A(,,!+1!05!6*+55221!A0:,9!32.(!+!cost per life saved!05!₤ 14.6 million. Against this cost had to be set the value of a fatality prevented (VFP)#!h(*(R! Q*2621>! C+2,! <0:,9! 9*+A! :G0)! 6>(! ,()36>7! (VG(*2()<(! 05! 6>(! WX! Y(G+*6;()6! 05! T*+)1G0*6!2)!+1123)2)3!+!.+,:(!60!+!statistical life!2)!<+,<:,+62)3!6>(!H()(5261!05!+!*0+9! <0)16*:<620)!G*0\(<6#!@6!6>(!62;(!05!Q*2621>!C+2,j1!*(.2(A!05!6>(!@TS!G*03*+;;(!2)!6>(! A+Z(! 05! 6>(! h299()! 52)92)31R! 6>(! Y(G+*6;()6! 05! T*+)1G0*6! .+,:(9! +! *0+9! 5+6+,267! +6! ₤!?$DRJJJ!2)!$II&!G*2<(1R!H:6!50*!*+2,A+7!+<<29()61!A>2<>!<+**7!+!>23>!*21Z!05!;:,62G,(! 5+6+,262(1R! 6>(! +GG*0G*2+6(! 523:*(! A+1! <0)129(*(9! 60! ,2(! 2)! 6>(! *+)3(! 05! ₤! $_&! ;2,,20)#! KT>(! 16+62162<+,! ,25(! .+,:+620)! ;(6>091! :1(9! H7! 6>(! Y(G+*6;()6! 05! T*+)1G0*6! +*(! 5:*6>(*!921<:11(9!2)!4(<620)!%#%#=!H(,0AL#!U.()!+6!6>(!>23>(*!()9!05!6>(!OMS!*+)3(R! 6>(!<016!05!2)16+,,2)3!+)9!;+2)6+2)2)3!@TS!A0:,9!>+.(!H(()!1(.()!62;(1!6>(!.+,:(!05! +!5+6+,267!G*(.()6(9#! ! T>(! 90:H61! 6>+6! 6>21! +)+,7121! *+21(9! +H0:6! 6>(! 5+2,:*(! 05! @TS! 60! G*0.29(! +9(E:+6(!1+5(67!2;G*0.(;()6!H()(5261!H*0:3>6!2)60!E:(1620)!6>(!A>0,(!+GG*0+<>!60! +11(11;()6! 05! 6>(! <0161! +)9! H()(5261! 05! 2).(16;()61! 2)! *+2,A+7! 1+5(67#! T>:1! 26! G*0.29(9! 6>(! <:(! 50*! (16+H,21>2)3! +! )(A! *21Z! ;2)2;2a2)3! +GG*0+<>! 60! *+2,A+7! 1+5(67! ;+)+3(;()6! A>2<>! A0:,9! ()1:*(! 3*(+6(*! (55(<62.()(11! 05! 2).(16;()61! 2)! 1+5(67! ()>+)<(;()6#! yc>(6>(*! 6>(! -+9H*0Z(! '*0.(! +<<29()6! K1((! 5006)06(! DR! G02)6! %#%LR! A>2<>!2).0,.(9!+!3*(+6(*!):;H(*!05!5+6+,262(1!+)9!1(*20:1!2)\:*2(1!6>+)!6>(!/,+G>+;! ]:)<620)!+<<29()6!+)9!A>2<>!+*3:+H,7!A+1!k@TS!d!G*(.()6+H,(lR!A2,,!<+:1(!+!5:*6>(*! *(+11(11;()6!60!H(!;+9(!05!6>(!92*(<620)!05!*+2,A+7!1+5(67!;+)+3(;()6!2)!6>(!WX! *(;+2)1!60!H(!1(()z#! ! ! 3.3.2 Development of a Risk Management Approach in British Railways ! Y(;0)16*+620)! H7! 6>01(! *(1G0)12H,(! 50*! 3()(*+62)3! 1+5(67! >+a+*91! 6>+6! 6>(7! >+.(!2)!G,+<(!1:26+H,(!G*0<(9:*(1!50*!;+)+32)3!6>(!*21Z!G01(9!H7!6>(1(!>+a+*91!21! 1(()!+1!+!Z(7!5+<60*!05!WX!1+5(67!*(3:,+620)1#!4:<>!+!9(;0)16*+620)!21!*(E:2*(9!H7! 6>(!30.(*)2)3!,(321,+620)!2)!6>(!50*;!05!6>(!h(+,6>!+)9!4+5(67!+6!c0*Z!@<6!$I?=!+)9! 05! 6>(! 1G(<252! +1! 6>(! C+2,A+7! K4+5(67! /+1(L! C(3:,+620)1!$II=#! ! T>(!30.(*)2)3!,(321,+620)!+)9!*(3:,+620)1!*(E:2*(!6>+6!6>(!h(+,6>!+)9!4+5(67! UV(<:62.(!Kh4U) must accept and approve a Railway Safety Case before a railway may begin to operate. M:,,! <0;G,2+)<(! A26>! 6>(1(! *(3:,+620)1! 21! +! G*(*(E:2126(! 50*! 211:+)<(!05!+)!0G(*+60*j1!,2<()1(!H7!6>(!C+2,!C(3:,+60*#!T>(!4+5(67!/+1(!;:16!1>0A! >0A! +! *(1G0)12H,(! 0G(*+60*! A2,,! manage, monitor and (over time) review!1+5(67! *21Z1#!T>(!0H\(<62.(!05!6>(1(!+<62.262(1!A2,,!)06!12;G,7!H(!60!*(9:<(!*21Z1R!H:6!*+6>(*!60! 16*2Z(! +! H+,+)<(! H(6A(()! 6>(! H()(5261! 05! *21Z! *(9:<620)R! 6>(! <0161! K2)<,:92)3! 0G(*+620)+,! <0161L! +110<2+6(9! A26>! 6>+6! *(9:<620)! +)9! 6>(! <0;;(*<2+,! *(6:*)1! 5*0;! *+2,A+7!0G(*+620)#! ! c>2,(! 6>(! h4U! >+1! 0.(*+,,! *(1G0)12H2,267! 50*! 6>(! +GG,2<+620)! 05! 1+5(67! G0,2<7! +)9!*(3:,+620)1!2)!6>(!WX!*+2,A+7!2)9:16*7R!6>(!;+)+3(;()6!05!1+5(67!*21Z!>+1!:)62,! *(<()6,7!*(129(9!A26>!6>(!G*2.+621(9!*+2,A+7!2)5*+16*:<6:*(!G*0.29(*R!C+2,6*+(!*21Z!;+)+3(;()6!1716(;!9(.(,0G(9!50*!+GG,2<+620)!A26>2)!Q*2621>!C+2,!2)! 6>(! ,+6(! $INJj1! A+1! +90G6(9! H7! C+2,6*+(! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! ?!C+2,6*+(!*+2,A+7!2)5*+16*:<6:*(!<0;G+)7!5,0+6(9!2)!$IIF!60!6+Z(!0.(*!0A)(*1>2G!+)9! ;+2)6()+)<(!05!6>(!50*;(*!QC!)(6A0*Z#!

D=! C+2,6*+(! kr(,,0A!Q00ZlR!6A0!.(*120)1!05!A>2<>R!rQ!$!+)9!rQ!&R!>+.(!10!5+*!H(()!G*09:<(9#! rQ&R! 211:(9! 2)! 4(G6(;H(*! $II?R! 9(52)(1! 6>(! 606+,! +GG*0+<>! 05! C+2,6*+(!k16+6(! 05!6>(!+*6l!2)!*+2,A+7!*21Z!+11(11;()6!2)!6>(!W)26(9!X2)390;#! ! T>(!+))0:)<(;()6!0)!$J!e<60H(*!$III!6>+6!C+2,6*+0*267!50*!*+2,A+7! 1+5(67! ;+)+3(;()6! A0:,9! H(! *(+,,0<+6(9! 60! +)06>(*R! +1! 7(6! :)_)+;(9R! H097! <+,,1! 2)60!E:(1620)!6>(!5:6:*(!05!rQ&#!h0A(.(*R!12)<(!rQ&!>+1!H(()!6>(!1716(;!2)!:1(!:G! :)62,!6>(!G*(1()6R!6>(!+GG*0+<>!26!(;H092(1!21!921<:11(9!>(*(#!

(i) The ALARP Principle ! @6! 6>(! <0*(! 05! 6>(! C+2,6*+! 60! *+2,A+7! *21Z! +11(11;()6! 21! 6>(! +GG,2<+620)!05!6>(!10_<+,,(9!@-@CS!S*2)<2G,(!K2,,:16*+6(9!2)!M23:*(!%#$L#!@GG,2<+620)!05! 6>21!G*2)<2G,(!21!2)6()9(9!60!()1:*(!6>+6!6>(!*21ZR!0*!G*0H+H2,267R!05!*+2,A+7!+<<29()61! A26>!1(*20:1!<0)1(E:()<(1!2)!6(*;1!05!,011!05!,25(!+)9!2)\:*7R!21!Z(G6!60!+!,(.(,!A>2<>! 21!k+1!,0A!+1!21!*(+10)+H,7!G*+<62<+H,(l#!!@-@CS!9(52)(1!6>*((!,(.(,1!05!*21ZB! ! #$ intolerable risk, A>2<>! <+))06! H(! \:16252(9! 0*! +<<(G6(9R! (V<(G6! 2)! (V6*+0*92)+*7!<2*<:;16+)<(1f! ! #$ tolerable riskR! A>2<>! <+)! H(! +<<(G6(9! 0),7! 25! *21Z! *(9:<620)! 21! 2;G*+<62<+,!0*!25!6>(!<016!05!*21Z!*(9:<620)!3*(+6,7!(V<((91!6>(!H()(526! 3+2)(9f!+)9! ! #$ negligible risk! A>2<>! 21! H*0+9,7! +<<(G6+H,(! +)9! 90(1! )06! *(E:2*(! *21Z! ;2623+62)3!;(+1:*(1#! ! ! T>(! 2;G,2<+620)1! 05! @-@CS! +*(! 6>+6! 25! *21Z! 21! 9(6(*;2)(9! 60! H(! +6! 6>(! 2)60,(*+H,(! ,(.(,R! ;(+1:*(1! ;:16! H(! 6+Z()! 2;;(92+6(,7! 60! *(9:<(! 26! 60! +! 60,(*+H,(! ,(.(,#! 42;2,+*,7R! 25! *21Z! 21! 50:)9! 60! H(! +6! +! 60,(*+H,(! ,(.(,R! *21Z! ;2623+62)3! ;(+1:*(1! 1>0:,9!162,,!H(!+GG,2(9R!provided that they are capable of practical application and that the benefits to be gained exceed the costs of their application.! ! 86!1>0:,9!H(!)06(9!6>+6!6>(!@-@CS!G*2)<2G,(R!H7!+<<(G62)3!*21Z1!50*!A>2<>!6>(*(! +*(!)0!<016!(55(<62.(!;2623+62)3!;(+1:*(1R!16+)91!2)!;+*Z(9!<0)6*+16!60!6>(!U:*0G(+)! +GG*0+<>!60!G:H,2(!A0*ZG,+<(!+1!1(6!0:6!2)!6>(!M*+;(A0*Z! Y2*(<62.(!05!6>(!U:*0G(+)!W)20)!KNIg%I$gUU/L#!T>21!16+6(1!6>+6!1+5(67!k21!+)!0H\(<62.(! A>2<>!1>0:,9!)06!H(!1:H0*92)+6(9!60!G:*(,7!(<0)0;2

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! N!c#4#@6Z2)1R!C(.2(A!05!C+2,A+7!4+5(67![+)+3(;()6!50*!U:*0G(+)!/0;;21120)R!$IID#!

DD! Figure 3.1: The ALARP Principle

!Unacceptable (or C21Z!<+))06!H(!\:16252(9! INTOLERABLE)! (V<(G6 2)!(V6*+0*92)+*7! Region <2<:;16+)<(1

ALARP (or T0,(*+H,(!0),7!25!*21Z! TOLERABLE) region *(9:<620)!21!2;G*+<62<+,!0*! RISK 25!<016!3*011,7! 921G*0G0*620)+6(!60! 2;G*0.(;()6!3+2)(9!

Broadly Acceptable P(<(11+*7!60!;+2)6+2)! K0*!P(3,232H,(L!C(320)! +11:*+)<(!6>+6!*21Z! *(;+2)1!+6!6>21!,(.(,! No need for ALARP

! ! ! Source: S#C#!/>((1(A*23>6R!Recent Developments!in Risk Assessment in Rail, G+G(*!! G*(1()6(9!+64+5(67!0)!U:*0G(+)!C+2,A+71/0)5(*()<(R!-0)90)R!=!Y(<(;H(*!$II?#! ! ! (ii) Risk Management Process in the United Kingdom ! T>(!@-@CS!S*2)<2G,(!21!+GG,2(9!+1!G+*6!05!+!C21Z![+)+3(;()6!S*0<(11R!6>(! (11()62+,!5(+6:*(1!05!A>2<>!+*(!1>0A)!2)!M23:*(!%#&#!!C+2,6*++1! >+9! G*2;+*7! *(1G0)12H2,267! 50*! 6>(! +GG,2<+620)! 05! 6>21! G*0<(11R! :)9(*! 6>(! H*0+9! 1:G(*.2120)!05!C+2,!8)1G(<60*+6(!05!6>(!h4U#!

C21Z! ;+)+3(;()6! 2).0,.(1! 6>*((! ;+2)! +<62.262(1B! >+a+*9! 29()6252<+620)R! *21Z! +11(11;()6R! +)9! *21Z! <0)6*0,#! T>(1(! 6>*((! +<62.262(1R! +1! 1>0A)! 2)! M23:*(! %#&R! +*(! 3:29(9! H7! G:H,221! +<62.267! 21! 2)6()9(9! 60! 29()6257! +,,! *(+10)+H,7! 50*(1((+H,(! (.()61g126:+620)1!>+.2)3!6>(!G06()62+,!05!<+:12)3!!>+*;!60!G+11()3(*1R! *+2,A+7!16+55!0*!60!6>(!3()(*+,!G:H,2)2E:(1!+*(!+.+2,+H,(!60!+11216!6>(!29()6252<+620)!G*0<(11R! 2)<,:92)3! h+a+*9! +)9! eG(*+H2,267! Kh@meSL! 16:92(1R! S*(,2;2)+*7! h+a+*9! @)+,7121! KSh@L! +)9! M+2,:*(! [09(1R! U55(<61! +)9! /*262<+,267! @)+,7121! KM[U/@L#! T>(1(! 6(<>)2E:(1! 3()(*+,,7! 2).0,.(! kH*+2)160*;2)3l! ;((62)31R! +6! A>2<>! 3:29(A0*91! +*(! :1(9! 60! 29()6257! >+a+*91#! !

DF! Figure 3.2: Railtrack Risk Management System ! ! ! UV6(*)+,!M+<60*1! ! - G:H,221! 21! <0;G*21(9! 05! 5*(E:()<7! +11(11;()6R! 1<()+*20! ;09(,,2)3R! <0)1(E:()<(!+11(11;()6R!*21Z!1:;;+620)!+)9!<016!H()(526!+)+,7121#!! ! @)!assessment of accident frequency!50*!29()6252(9!>+a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g;060*! .(>2<,(! <0,,2120)L! 60! 0<<:*#! yT>(! +GG,2<+620)! 05! MT@! 21! 921<:11(9! +6! 10;(! ,()36>! 2)! />+G6(*! =z#! ! 861! +<<:*+<7! 9(G()91!:G0)!6>(!+9(E:+<7!05!6>(!9+6+!)((9(9!60!E:+)6257!2)92.29:+,! <0;G0)()6! 5+2,:*(1R! 0*! kH+1221! 9+6+! 21! *(+92,7! +.+2,+H,(! K(#3#! ):;H(*1! 05! 6*+(*! <+1(1! 10:)9! ()32)((*2)3! \:93(;()6! +)9! (VG(*2()<(!>+1!60!H(!*(,2(9!:G0)#! !

D?! Detailed scenario modelling!A2,,!3()(*+,,7!H(!*(E:2*(9!0),7!A>(*(!6>(! <2*<:;16+)<(1!+)9!,0<+620)!05!+)!(.()6!3*(+6,7!2)5,:()<(!261!0:6<0;(R! 0*! <0)1(E:()<(1#! T>:1R! 6>(! ,0<+620)! +)9! G>712<+,! ().2*0);()6! 05! +! ,(.(,! <*0112)3! +<<29()6! <+)! 056()! >+.(! +! 123)252<+)6! 2)5,:()<(! 0)! 6>(! (V6()6!05!>:;+)!+)9!G*0G(*67!9+;+3(!1:16+2)(9#!U.()6!T*((!@)+,7121! KUT@L! 21! 6>(! 6(<>)2E:(! A>2<>! 21! ;016! 056()! :1(9! 50*! 1<()+*20! ;09(,,2)3#!86!+)+,71(1!+)9!9(1<*2H(1!>0A!+)!2)262+62)3!(.()6!A2,,!,(+9! 60!9255(*()6!0:6<0;(1R!9(G()92)3!:G0)!6>(!2)6(*+<620)!05!6>(!G>712<+,! ,0<+620)! 05! 6>(! (.()6R! >:;+)! G(*50*;+)<(! K(#3#! 05! 6*+2)! +)9! ;060*! .(>2<,(! 9*2.(*1L! +)9! 6>(! G(*50*;+)<(! 05! 1+5(67! G*06(<620)! 9(.2<(1#! 86! 2).0,.(1! <0)16*:<62)3! +)! U.()6! T*((! H7! ,+72)3! 0:6! 2)! <>*0)0,032<+,! 0*9(*! (+<>! 29()6252(9! 5+<60*! +)9! 6>()! \02)2)3! :G! +,,! <0;H2)+620)1! 05! 5+<60*1!60!G*0.29(!+!):;H(*!05!G0112H,(!()9!(.()61R!0*!0:6<0;(1#!T>(! G*0H+H2,267! 05! (+<>! 0:6<0;(! <+)! 6>()! H(! (16+H,21>(9! H7! +1123)2)3! G*0H+H2,262(1! 60! (+<>! H*+)<>! 05! 6>(! (.()6! 6*((R! 0)! 6>(! H+121! 6>+6! 6>(! 5*(E:()<7!05!0<<:**()<(!05!(+<>!>+a+*90:1!0:6<0;(!21!6>(!G*09:<6!05! 6>(!5*(E:()<7!05!0<<:**()<(!05!6>(!2)262+62)3!(.()6!+)9!6>(!G*0H+H2,267! 6>+6!6>(!(.()6!A2,,!9(.(,0G!60!6>+6!G+*62<:,+*!0:6<0;(#!!yT>(!+GG,2<+620)! 05!UT@!21!+,10!921<:11(9!2)!,()36>!2)!/>+G6(*!=!05!6>21!*(G0*6z#

Consequence assessment! 21! <+**2(9! 0:6! 2)! 0*9(*! 60! G*(92<6! 6>(! 1(.(*267!05!>+a+*90:1!0:6<0;(1!K2)!6(*;1!05!<+1:+,62(1L#!@11(11;()61! +*(! H+1(9! 0)! >2160*2<+,! 9+6+! *(,+62)3! 60! ,0<+,! 5+<60*1! K(#3#! G+11()3(*! ,0+92)31R! 60G03*+G>7R! )+6:*(g<0)92620)! 05! *0,,2)3! 160712<+,! ().2*0);()6!05!,(.(,!<*0112)31L!A>2<>!+*(!,2Z(,7!60!>+.(!+)!2;G+<6!0)! 6>(! G06()62+,! ):;H(*! 05! <+1:+,62(1#! /+1:+,67! (162;+6(1! +*(! :1:+,,7! (VG*(11(9!1(G+*+6(,7!2)!6(*;1!05!6>(!):;H(*!05!5+6+,262(1R!+)9!05!;+\0*! +)9! ;2)0*! 2)\:*2(1R! A>2<>! +*(! 6>()! <0;H2)(9! 2)60! +! 606+,! ):;H(*! 05! (E:2.+,()6!5+6+,262(1#!

Risk summation 21! <+**2(9! 0:6! H7! <0;H2)2)3! 6>(! *(1:,61! 05! 6>(! MT@R! UT@! +)9! /0)1(E:()<(! @)+,7121R! 2)! 0*9(*! 60! G*09:<(! 2)92.29:+,R! 10<2(6+,! +)9! <0,,(<62.(! *21Z! (162;+6(1#! ! T>(1(! (162;+6(1! +*(! 6>()! <,+11252(9!2)!+<<0*9+)<(!A26>!6>(!@-@CS!S*2)<2G,(R!2)!0*9(*!60!G*20*2621(! (VG()926:*(! 0)! 1+5(67! ()>+)<(;()6! K0*! *21Z! *(9:<620)L! G*0\(<61#! h+a+*91R!A>2<>!+*(!<0)129(*(9!60!G01(!+)!2)60,(*+H,(!,(.(,!05!*21Z!2)! 6(*;1! 05! +<<29()6! 5*(E:()<7! +)9! 1(.(*267R! +:60;+62<+,,7! E:+,257! 50*! G*0\(<6! (VG()926:*(! A26>0:6! >+.2)3! 60! H(! 1:H\(<6(9! 60! <016gH()(526! +)+,7121#! S*0\(<61! 9(123)(9! 60! *(9:<(! *21Z1R! A>2<>! +*(! 29()6252(9! +1! k60,(*+H,(lR!+*(!1:H\(<6(9!60!<016gH()(526!+)+,7121!2)!0*9(*!60!9(6(*;2)(! A>(6>(*!6>(!H()(5261!60!H(!3+2)(9!5*0;!1+5(67!()>+)<(;()6!G*0\(<61! A0:,9! (V<((9! 6>(! <016! 05! G*0\(<6! 2;G,(;()6+620)#! 85! <016gH()(526! +)+,7121! +)1A(*1! 6>21! E:(1620)! 2)! 6>(! +552*;+62.(R! 6>(! G*0\(<6! 21! 2;G,(;()6(9R!H:6!25!2)!6>(!)(3+62.(!6>(!G*0\(<6!21!*(\(<6(9!0*!*(6:*)(9! 50*! *(_+11(11;()6! 05! 261! <+G26+,! +)9! 0G(*+62)3! <0161#! M2)+,,7R! 50*! >+a+*91!A26>!+!)(3,232H,(!,(.(,!05!+110<2+6(9!*21ZR!)0!5:*6>(*!+<620)!21! *(E:2*(9R!06>(*!6>+)!60!()1:*(!5*0;!62;(!60!62;(!6>+6!*21Z!*(;+2)(9!+6! 6>21!,(.(,#!

Cost-Benefit Analysis! 21! :)9(*6+Z()! 50*! +)7! >+a+*9! 1<()+*201! 1>0A)! 60!,2(!A26>2)!6>(!@-@CS!*(320)R!2)!0*9(*!60!9(6(*;2)(!A>(6>(*!6>(*(!21! +)7!\:16252<+620)!50*!5:*6>(*!*21Z!*(9:<620)#!4:<>!\:16252<+620)!A2,,!9(G()9! :G0)!6>(*(!H(2)3!+!1:*G,:1!05!H()(526!0.(*!6>(!<016!05!+992620)+,!*21Z! *(9:<620)#!8)!6>21!<+1(R!6>(!kH()(526l!21!6>(!1+.2)3!05!>:;+)!,25(!+)9!+! 52)+)<2+,! .+,:(! ;:16! H(! +66+<>(9! 60! 6>21! H()(526R! >0A(.(*! 9216+16(5:,!

DN! 6>21!+GG*0+<>!;23>6!H(#!8)!6>(!W)26(9!X2)390;R!6>21!H()(526!21!*(5(**(9! 60! +1! 6>(! O+,:(! 50*! 6>(! S*(.()620)! 05! +! M+6+,267! KOSML! +)9R! 50*! 6*+)1G0*6+620)!1+5(67!G*0\(<61R!261!.+,:(!>+1!H(()!+11(11(9!60!,2(!A26>2)! 6>(! *+)3(! 05! ₤ 0.8 – 2.5 million per fatality +.029(9#! KM0*! 5:*6>(*! 921<:1120)! 0)! 1+5(67! H()(526! .+,:+620)! 2)! 6*+)1G0*6! G*0\(<6! +GG*+21+,! 1((!4(<620)!%#%#=L#!@1!+)!(V+;G,(!05!6>(!+GG,2<+620)!05!/016_Q()(526! @)+,7121! 60! +! *21Z! *(9:<620)! G*0\(<6! 25! 26! 21! +11:;(9! 6>+6! 6>(! *21Z! *(9:<620)!;(+1:*(!H(2)3!+GG*+21(9!A2,,!1+.(!6>*((!(E:2.+,()6!5+6+,262(1! 0.(*! 261! 9(123)! ,25(! 05! $J! 7(+*1R! 6>+6! 26! >+1! <+G26+,! +)9! ;+2)6()+)<(! <0161!A26>!+!)(6!G*(1()6!.+,:(!05!b!DJJRJJJ!+)9!6>+6!6>(!*(,(.+)6!OSM! 21!b!&#J!;2,,20)R!6>()!6>(!H()(526_<016!*+620!05!6>(!G*0G01(9!;(+1:*(!21! $&! K2#(#! %! V! &g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k,2.2)3! 90<:;()6lR! *(E:2*2)3! 5*(E:()6! *(.2(A! +)9! *(.2120)!A>()(.(*!+GG*0G*2+6(!K1:<>!+1!A>()!+!G*0<(9:*(!9(1<*2H(9! 2)! 6>(! 1+5(67! <+1(! 21! 60! H(! <>+)3(9L#! WX! C+2,A+7! 4+5(67! /+1(! C(3:,+620)1! 2)! +)7! (.()6! *(E:2*(! *+2,A+7! 0G(*+60*1! 60! *(.2(A! 6>0*0:3>,7! 6>(2*! 1+5(67! <+1(1! +6! ,(+16! 0)<(! (.(*7! 6>*((! 7(+*1#! T>21! 2;G,2(1! 6>+6! 6>(7! A2,,! +,10! *(.2(A! 6>(! *21Z! ;+)+3(;()6! 16*+6(32(1! 0:6,2)(9!2)!1+5(67!<+1(1#! ! ! 3.3.3 Risk management as applied to level crossing accidents in the United Kingdom

(i) Trend in and relative significance of level crossing fatalities

@! 1+5(67! 1:*.(7! G:H,21>(9! 2)! C+2,A+7! '+a(66(! 8)6(*)+620)+,! 05! [+7! $II&! 2)92<+6(9! 6>+6! 6>(! ):;H(*! 05! G(*10)1! Z2,,(9! 0*! 1(*20:1,7! 2)\:*(9! 2)! ,(.(,! <*0112)3! +<<29()61!2)!6>(!W)26(9!X2)390;!H(6A(()!$INJ!+)9!$II$!A+1!=ND!0:6!05!+!606+,!05!+,,! G(*10)1! Z2,,(9! 0*! 1(*20:1,7! 2)\:*(9! 05! NRI$&R! 2#(#! 0),7! D! G(*! <()6! 05! 6>(! 606+,#! @6! 6>(! 1+;(!62;(R!6>21!1:*.(7!2)92<+6(9!6>+6!6>(*(!A(*(!)0!:)G*06(<6(9!,(.(,!<*0112)31!2)!6>(! W)26(9!X2)390;#![0*(!*(<()6!9+6+!0)!fatalities G:H,21>(9!H7!6>(!h(+,6>!+)9!4+5(67! UV(<:62.(!50*!6>(!G(*209!$II%gI=_$IINgII!1>0A!6>+6!,(.(,!<*0112)3!5+6+,262(1!*(G*(1()6! +! >23>(*! G*0G0*620)! 05! +,,! 5+6+,262(1! 2)! *+2,A+7! +<<29()61! 2)! 6>(! W)26(9! X2)390;! K16+)92)3! +6! +H0:6! %J_%D! G(*! <()6! 0.(*! 6>(! 52.(! 7(+*! G(*209L#! h0A(.(*R! A26>! 6>(! (V<(G620)!05!+!1>+*G!2)<*(+1(!2)!$II?gINR!6>(*(!>+1!H(()!+!;+*Z(9!90A)A+*9!6*()9! 2)!,(.(,!<*0112)3!5+6+,262(1!0.(*!6>(!1+;(!52.(!7(+*!G(*209R!+1!21!1>0A)!2)!M23:*(!%#%#!86! 21!+,10!)06+H,(!6>+6!05!6>(!$D!G(*10)1!Z2,,(9!0)!,(.(,!<*0112)31!2)!$II?gINR!$%!A(*(! G(9(16*2+)1! 05! A>0;! F! A(*(! :12)3! 5006G+6>! <*0112)31#! 86! ;+7! H(! <0)<,:9(9! 6>+6! +! 1:H16+)62+,! 2;G*0.(;()6! 2)! ,(.(,! <*0112)3! 1+5(67! >+1! H(()! +<>2(.(9! 2)! 6>(! W)26(9! X2)390;!2)!*(<()6!7(+*1#!

DI! ! Figure 3.3: Level crossing fatalities relative to total railway fatalities, United Kingdom

DJ 48

r T06+,!M+6+,262(1 =J 41 42 36 %J 28 25 -(.(,!/*0112)3 &J Num be 14 13 15 M+6+,262(1 $J 11 3 3 J

$II%gI= $II=gID$IIDgIF $IIFgI?$II?gIN $IINgII

Source: HSE Railway Safety Statistics Bulletin 1998/99. ! ! (ii) Accident record of various types of level crossings

Y+6+! 0)! +<<29()61R! 5+6+,262(1! +)9! 2)\:*2(1! 50*! 6>(! .+*20:1! 67G(1! 05! G*06(<6(9! ,(.(,!<*0112)31!2)!6>(!W)26(9!X2)390;!H(6A(()!$!@G*2,!$II$!+)9!%$![+*<>!$II&!A(*(! G:H,21>(9!2)!k[09(*)!C+2,A+71l!05!]:)(!$II=!+)9!+*(!*(G(+6(9!2)!T+H,(!%#&!H(,0A#! ! Table 3.2: Accidents at protected level crossings, 1 April 1991 - 31 March 1992

[+):+,! @:60;+62#!0<<#!Z2,,(9! ! ! ! &! ! ! &! =! C0+9!.(>#!0<<#!2)\:*(9! ! $! ! ?! ! ! $J! $N! S(9(16*2+)1!Z2,,(9! ! ! $! &! ! ! ! %! S(9(16*2+)1!2)\:*(9! ! $! %! ! ! ! ! =!

SourceB!![09(*)!C+2,A+71!]:)(!$II=#! NotesB!!!![/Qg//TO!v![+):+,,7!<0)6*0,,(9!H+**2(*1!A26>!//TOf!@hQ!v!@:60;+626! *(+10)+H,7! H(! (VG(<6(9R! 6>01(! ,(.(,! <*0112)31! A>2<>! >+9! +! 921G*0G0*620)+6(!1>+*(!05!+<<29()61R!5+6+,262(1!+)9!2)\:*2(1!A(*(!6>01(!A26>0:6!+)7!0*! 0),7! +! ,2;26(9! 50*;! 05! <0)6*0,R! )06+H,7! 6>(! @:60;+62+,5!A296>!H+**2(*1L!+)9!6>(!@:60;+62! ,0<+,! <0)6*0,! H:6! A26>0:6! H00;! H+**2(*! G*06(<620)L#! T>(! @hQ! 67G(! A>2<>!2)!$II&!*(G*(1()6(9!\:16!0.(*!+!E:+*6(*!05!+,,!G*06(<6(9!<*0112)31!0)!6>(!Q*2621>! C+2,!1716(;R!+<<0:)6(9!50*!=$!G(*!<()6!05!+,,!,(.(,!<*0112)3!+<<29()61R!D?!G(*!<()6!05!

FJ! +,,!,(.(,!<*0112)3!5+6+,262(1R!+)9!?F!G(*!<()6!05!+,,!,(.(,!<*0112)3!2)\:*2(1#!T>(!@e/-! 67G(! *(G*(1()62)3! 0),7! $&#D! G(*! <()6! 05! +,,! G*06(<6(9! ,(.(,! <*0112)31! 2)! $II&R! +<<0:)6(9!50*!&N!G(*!<()6!05!+,,!,(.(,!<*0112)3!+<<29()61R!&I!G(*!<()6!05!5+6+,262(1!+)9! $?!G(*!<()6!05!2)\:*2(1#!

(iii) The Lockington accident and its significance

e)! &F! ]:,7! $INFR! +! M0*9! U1<0*6! G+)(,! .+)! A26>! 6A0! 0<<:G+)61! ()6(*(9! +)! 0G()!G*06(<6(9!<*0112)3!+6!-0(!Q*29,2)360)!60!h:,,!,2)(!+)9!<0,,29(9!A26>! 6>(!JI%%!Q*29,2)360)_h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e/C! K@:60;+6221!67G(!05!,(.(,!<*0112)3!G*06(<620)!1716(;R!A>2<>!2).0,.(1!0),7!5,+1>2)3! ,23>6!G*06(<620)!50*!;060*2161R!>+9!*(G,+<(9!;+):+,,7!0G(*+6(9!3+6(1!\:16!12V!;0)6>1! H(50*(! 6>(! +<<29()6#! T>21! A+1! 90)(! +1! G+*6! 05! +)! (<0)0;7! 9*2.(! 60! 1+.(! 6>(! Q*29,2)360)_h:,,!,2)(!5*0;!<,01:*(#! ! T>(! -0(! *(,2+H2,267! 05! 6>(! +:60;+62!6>(!@e/C!67G(!05!,(.(,!<*0112)3R!12)<(! (.29()<(!>+9!H(()!32.()!60!6>(!8)E:2*7!2)60!6>(!+<<29()6!6>+6!6>(!<*0112)3!,23>61!>+9! 5*(E:()6,7!;+,5:)<620)(9!(.()!9:*2)3!6>(!1>0*6!G(*209!9:*2)3!A>2<>!6>(!)(A!@e/C! <*0112)31!>+9!H(()!2)!1(*.2<(#I!!/0;;0)!G*0H,(;1!*+)3(9!5*0;!6>(!,23>61!A0*Z2)3! 50*!+!1>0*6(*!62;(!6>+)!6>(!*(E:2*(9!&?!1(<0)91!60!<0;G,(6(!5+2,:*(!A>()!+!6*+2)!A+1! G+112)3#!! ! T>(! 8)E:2*7! 2)60! 6>(! +<<29()6! *+21(9! 1:<>! +! ,(.(,! 05! G:H,2+6! 6>(! 4(<*(6+*7!05!46+6(!50*!T*+)1G0*6!<0;;21120)(9!+!1(G+*+6(!*(.2(A!05!+:60;+62(! 16:97R! :)9(*6+Z()! H7! S*05(110*! 46066! A+1! H+1(9! 0)! 16+62162<+,!+)+,7121!+)9!()32)((*2)3!<0)129(*+620)1#!46066j1!<0)<,:120)1!A(*(!6>+6B! ! #$ 6>(! G:H,223>(*! 1+5(67! 16+)9+*91! +6!*0+9g*+2,! 2)6(*1(<620)1! 6>+)!+6!0*92)+*7!*0+9!\:)<620)1f!+)9! ! #$ <0,,2120)1! +6! @e/j1! A(*(! &J! 62;(1! ;0*(! ,2Z(,7! 6>+)! +6! @hQj1! for the same traffic loading! ! 46066j1!+GG*0+<>!A+1!60!+11:;(!+)!+*H26*+*7!;+V2;:;!+<<(G6+H,(!5+6+,267!*+6(! 05!0)(!2)!$JJ!7(+*1!+)9!60!<+,<:,+6(!+<<29()6!G*0H+H2,262(1!H+1(9!0)!6*+2)!1G((91!+)9! k(55(<62.(l! 6*+552(*(! 6*+552(! G*09:<6! 05! *+2,! +)9! *0+9! ;0.(;()61!6>*0:3>!+!,(.(,!<*0112)3L#!!@e/Cj1!A(*(!9(123)(9!50*!6*+2)!1G((91!05!:G! 60!?D!;2,(1!G(*!>0:*R!2)!0*9(*!60!G*0.29(!<0;;(*<2+,,7!+<<(G6+H,(!6*+)126!62;(1#!42)<(! 6*+2)!1G((9!A+1!6>(!3*(+6(16!12)3,(!5+<60*!2)5,:()<2)3!6>(!(V6()6!05!5+6+,262(1R!26!A+1! )06!1:*G*212)3!6>+6!)(+*,7!NJ!G(*!<()6!05!<*0112)31!05!6>(!@e/C!67G(!5+2,(9!60!;((6! 46066j1! 0)(! 2)! $JJ! 7(+*! 6(16#! ! 8)! 5+<6R! 6>(! +<6:+,! ):;H(*! 05! <0,,2120)1! 0<<:**2)3! 0)! +:60;+62(!):;H(*!05!5+6+,262(1! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! I!@1!*(G0*6(9!2)![09(*)!C+2,A+71!05!]:)(!$II=#!

F$! 0)!<*0112)31!05!6>21!67G(!%J!G(*!9(<+9(!d!+!,0)3!A+7!1>0*6!05!6>(!+11:;(9!;+V2;:;! +<<(G6+H,(!*+6(1#! ! c>+6! (;(*3(9! 5*0;! 46066j1! 16:97! A+1! +! <0;G*0;21(! 10,:620)#! c>(*(+1! 6>(! )0*;+,!10,:620)!;23>6!>+.(!H(()!60!*(<0;;()9!2)16+,,+620)!05!@hQj1!2)16(+9!05!6>(! @e/C!(E:2G;()6R!6>21!A0:,9!>+.(!2).0,.(9!+!1G((9!G()+,67!05!+H0:6!&J!;2,(1!G(*! >0:*#! 86! A+1! 6>(*(50*(! 9(<29(9! 60! *(<0;;()9! +! >7H*29! 1716(;! <0;H2)2)3! 6>(! ;+V2;:;! 6*+2)! 1G((9! 05! 6>(! @e/C! A26>! 6>(! H+**2(*! (E:2G;()6! 05! 6>(! @hQj1#! ! T>(! *(1:,62)3! 1716(;! A+1! Z)0A)! +1! +)! @:60;+62

3.3.4 Safety Valuation in Transport Project Appraisal

(i) The need for monetary valuation of accident casualties

Y:*2)3! 6>(! G+16! 9(<+9(R! 6>(! WX! Y(G+*6;()6! 05! T*+)1G0*6! >+1! ;+9(! <0)129(*+H,(! G*03*(11! 2)! 6(*;1! 05! +1123)2)3! monetary values! 50*! 6>(! G*(.()620)! 05! 9(+6>! +)9! 2)\:*2(1! 2)! 6*+)1G0*6! +<<29()61#! [:<>! 05! 6>21! A0*Z! *(,+6(1! 60! *0+9! 6*+552(!G*2)<2G,(1!():)<2+6(9!6>(*(2)!+*(!>23>,7!*(,(.+)6!60!6>(!.+,:+620)!05! 9(+6>!+)9!2)\:*7!G*(.()620)!2)!*+2,A+7!+<<29()61#! ! c>7!6>()!21!26!2;G0*6+)6!6>+6!6>(!G06()62+,!H()(5261!05!+<<29()6!G*(.()620)!H(! ;(+1:*(9!2)!;0)(6+*7!6(*;1`!!T>(!+)1A(*!60!6>21!E:(1620)!,2(1!2)!6>(!<0).()620)!6>+6! 6>(!H()(5261!05!6*+)1G0*6!G*0\(<61!+*(!67G2<+,,7!(VG*(11(9!2)!;0)(6+*7!6(*;1!60!+,,0A!+! <0;G+*210)! A26>! 6>(! <0161! 05! 6>(2*! 2;G,(;()6+620)#! T>:1R! 25! 6>(! <016gH()(526! *(,+620)1>2G1! 05! 1+5(67! G*0\(<61! +*(! 60! H(! A(23>(9! +3+2)16! 6>01(! 05! 06>(*! 6*+)1G0*6! G*0\(<61R! 6>(7! +,10! ;:16! H(! *(9:<(9! 60! ;0)(6+*7! 6(*;1R! H:6! 6>(! .+,:+620)! 05! 1+5(67! H()(5261!G01(1!<0)129(*+H,(!92552<:,67#! ! ! (ii) “Gross Output” vs. “Willingness–to-Pay” ! [+)7!9255(*()6!+GG*0+<>(1!60!6>(!.+,:+620)!05!1+5(67!>+.(!H(()!G*0G01(9R!H:6! 0),7! 6A0! >+.(! H(()! +90G6(9! d! )+;(,7! 6>(! “gross output”! +GG*0+<>! +)9! 6>(! ‘willingness-to-pay” +GG*0+<>#! Q06>! +GG*0+<>(1! >+.(! H(()! :1(9! H7! 6>(! WX! Y(G+*6;()6! 05! T*+)1G0*6! +6! .+*20:1! 62;(1! 2)! +66(;G62)3! 60! (16+H,21>! +)! (55(<62.(! ;(6>090,037!50*!6>(!<016_H()(526!+)+,7121!05!6*+)1G0*6!1+5(67!2;G*0.(;()6!1<>(;(1#!! ! T>(!3*011!0:6G:6!+GG*0+<>!G*2;+*2,7!+11(11(1!6>(!<016!05!+)!+<<29()6!+1!6>(! 921<0:)6(9! G*(1()6! .+,:(! 05! +! .2<62;j1! 5:6:*(! 0:6G:6R! 0*! 2)<0;(R! k(V62)3:21>(9! +1! +! *(1:,6! 05! >21! 0*! >(*! G*(;+6:*(! 9(;21(#l! $J! T0! 6>21! (162;+6(! 05! 2)<0;(! 50*(30)(! 21! +99(9! +)! +,,0A+)<(! 50*! .+*20:1! 06>(*! (<0)0;2! +1! .(>2<,(! 9+;+3(R! G0,2<(! +)9!;(92<+,! <0161#! ! 8)! 10;(! <0:)6*2(1R!+)! +992620)+,! K+*H26*+*7L! +,,0A+)<(! 21! ;+9(! 50*! 6>(! G+2)R! 3*2(5! +)9! 1:55(*2)3! 05! 6>(! .2<62;! 0*! 6>(! .2<62;j1! 9(G()9()61R! *(,+62.(1!+)9!5*2()91#!!

T>(! ;+\0*! 0H\(<620)! *+21(9! H7! (VG(*61! 2)! 6>21! 52(,9! 60! 6>(! 3*011! 0:6G:6! +GG*0+<>!21!6>+6!26!90(1!)06!*(5,(<6!+!G(*10)j1!6*:(!G*(5(*()<(!50*!1+5(67R!+1!92162)<6! 5*0;!6>(!9(12*(!60!G*(1(*.(!<:**()6!+)9!5:6:*(!,(.(,1!05!2)<0;(#!!!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! $J![#c#]0)(1_-((B!Valuing Safety in Transport Project Appraisal, S+G(*!50*!C+2,6*+! C+2,!/0)5(*()<(!0)!O+,:(!50*![0)(7!2)!T*+)1G0*6!4+5(67![(+1:*(1R!-0)90)R!&F!]:,7R!$II=#

F&! T>(!A2,,2)3)(11_60_G+7!KcTSL!+GG*0+<>R!0)!6>(!06>(*!>+)9R!.+,:(1!6>(!<016!05! +<<29()61!+1!6>(!;+V2;:;!+;0:)6!+!G(*10)!K0*!G(*10)1L!A0:,9!H(!G*(G+*(9!60!G+7! 50*! 2;G*0.(;()61! 2)! >21g>(*! 0A)! +)9! 06>(*1j! 1+5(67#! T>:1R! 6>(! cTS! .+,:+620)! 21! +! )+6:*+,! ;(+1:*(! 05! G(*10)+,! G*(5(*()<(! 50*! 1+5(67#! 861! H+121! 21! +! <0;H2)+620)! 05! ;+2,(9! +)9! G(*10)+,! 2)6(*.2(A! 1:*.(71R! +1! A(,,! +1! revealed preference 16:92(1! 2)! A>2<>!+)!+11(11;()6!21!;+9(!05!+<6:+,!126:+620)1!A>(*(!G(0G,(!6*+9(!055!2)<0;(!0*! A(+,6>! 50*! G>712<+,! *21Z! K67G2<+,,7! 2)! >+a+*90:1! 0<<:G+620)1! A>2<>! <0;;+)9! A+3(! G*(;2:;1L#! 86! 21! <+,<:,+6(9! 50*! 2)92.29:+,1! +)9! 6>()! +33*(3+6(9! 50*! 3*0:G1! 05! 2)92.29:+,1!:12)3!9216*2H:620)+,!A(23>61R!2)!0*9(*!60!+**2.(!+6!+)!0.(*+,,!.+,:(!50*!6>(! 1+5(67!2;G*0.(;()6!<0)<(*)(9#!! ! ! T0! G(*;26! <0;G+*210)1! H(6A(()! 6>(1(! +,6(*)+62.(! ;(6>091! 05! 1+5(67! .+,:+620)R!26!21!)(<(11+*7!60!16+)9+*92a(!6>(!(162;+6(1!H7!*(,+62)3!6>(;!60!6>(!<0)<(G6! 05!+.029+)<(!05!+!statistical death or injury. !@1!+)!2,,:16*+620)!05!6>21R!25!26!21!1:GG01(9! 6>+6! +! 3*0:G! 05! $JJRJJJ! G(0G,(! ()\07! +! 1+5(67! 2;G*0.(;()6! 6>+6! *(9:<(1! 6>(! G*0H+H2,267! 05! 9(+6>! H7! $! 2)! $JJRJJJ! 50*! each and every! ;(;H(*! 05! 6>(! 3*0:GR! 6>(! (VG(<6(9! ):;H(*! 05! 9(+6>1! A26>2)! 6>(! 3*0:G! 9:*2)3! +! 32.()! 5:6:*(! G(*209! A2,,! H(! G*(<21(,7!0)(#!T>(!1+5(67!2;G*0.(;()6!;+7!6>:1!H(!9(1<*2H(9!+1!6>(!+.029+)<(!05! 0)(!statistical death. T>(!16+62162<+,!9(+6>!1+.(9!;+7!6>()!H(!.+,:(9!2)!+<<0*9+)<(! A26>!(26>(*!05!6>(!6A0!+,6(*)+62.(!.+,:+620)!;(6>091!2)!0*9(*!60!(162;+6(!6>(!H()(526!05! +! 1+5(67! 2;G*0.(;()6#! yT>(! .+,:(! 05! +! 16+62162<+,! 9(+6>! 1+.(9! 21! *(5(**(9! 60! 2)! WX! *+2,A+7!1+5(67!90<:;()6+620)!+1!6>(!kO+,:(!05!+!M+6+,267!S*(.()6(9l!0*!OSMz#!! ! ! 86!>+1!60!H(!)06(9!6>+6!6>(!3*011!0:6G:6!+)9!cTS!;(6>091!05!1+5(67!H()(526! .+,:+620)! G*09:<(! A29(,7! 9255(*()6! *(1:,61R! +1! 21! 1>0A)! H7! 6>(! .+,:(1! :1(9! H7! 6>(! W)26(9!X2)390;!Y(G+*6;()6!2)!+11(112)3!6>(!<0161!05!*0+9!6*+552

Table 3.3: Gross output and WTP statistical life valuations used by United Kingdom Department of Transport for road accidents ! ! Gross output Willingness-to-pay $INDn!G*2<(1! ₤ 180,330! ! $IN?!G*2<(1! ! ₤ 500,000! $II&!G*2<(1! ! ₤ 715,330 $IIN!G*2<(1! ! ₤ 950,000!

Sources: K$L [#!c#!]0)(1_-((R!Valuing Safety in Transport Project Appraisal, C+2,6*+!! !!!!!!!!C+2,#!!/0)5(*()<(!0)!O+,:(!50*![0)(7!2)!T*+)1G0*6!4+5(67![(+1:*(1R! !!!!!!!!-0)90)R!]:,7!$II=!#! K&L! Judgement versus the cold numbers 2)![09(*)!C+2,A+71R!]:,7!$IIN#! * -+16!7(+*!50*!A>2<>!+!3*011!0:6G:6!H+1(9!(162;+6(!A+1!;+9(#!

(iii) Problems associated with WTP approach ! T>(! kA2,,2)3)(11_60_G+7l! (162;+6(1! 2)! T+H,(! %#%! +*(! 6>(! ;(92+)! .+,:(1! 5*0;! 6>(!1:*.(7!9+6+#!@1!1:<>R!6>(7!+*(!123)252<+)6,7!,0A(*!6>+)!6>(!;(+)!.+,:(1!5*0;!6>(! 1+;(!1:*.(7!9+6+!d!50*!(V+;G,(R!>+9!6>(!;(+)!*+6>(*!6>+)!6>(!;(92+)!H(()!:1(9!50*! 6>(! $II&! (162;+6(R! +! .+,:(! <,01(*! 60! ₤ 2,000,000 (nearly three times the median figure of ₤ 715,330) might have resulted#!!e)(!05!6>(!G*0H,(;1!2;G,2<26!2)!1(,(<62)3! 6>(!cTS!+GG*0+<>!21!6>+6!05!9(6(*;2)2)3!A>2<>!<()6*+,!6()9()<7!;(+1:*(!d!;(+)!0*! ;(92+)! d! H(16! *(5,(<61! 6>(! 1+5(67! .+,:+620)1! 05! +! ;+\0*267! 05! G(0G,(#! [016! (VG(*61! 1:33(16! 6>+6! 6>(*(! 21! )0! 1:H1626:6(! 50*! <*262<+,R! 2)50*;(9! \:93(;()6! 2)! 1(,(<62)3! +!

F%! G+*62<:,+*!.+,:(!5*0;!+!32.()!*+)3(#!c>()!2)!$INNR!6>(!W)26(9!X2)390;!Y(G+*6;()6! 05! T*+)1G0*6! 9(<29(9! 60! ;+Z(! E:26(! +! *+92<+,! <>+)3(! 2)! 261! ;(6>09! 05! .+,:2)3! *0+9! 5+6+,262(1!K5*0;!+!3*011!0:6G:6!60!+!cTS!+GG*0+<>LR!26!(**(9!0)!6>(!129(!05!<+:620)!+)9! 1(,(<6(9! +! .+,:(! +6! 6>(! ,0A(*! ()9! 05! 6>(! *+)3(! 05! (162;+6(1! 6>()! +.+2,+H,(#! 4:H1(E:()6,7R! 6>(! cTS! +GG*0+<>! >+1! 3+2)(9! 3*(+6(*! +<<(G6+)<(! +)9! 21! )0A! 6>(! +GG*0+<>!60!6>(!.+,:+620)!05!1+5(67!*(<0;;()9(9!2)!6>(!T*(+1:*7!k'*(()!Q00Zl#$$!!86! 21! G0112H,(! 6>+6! 6>21! ;+7! 2)5,:()<(! 6>(! Y(G+*6;()6! 05! T*+)1G0*6! 2)! 5:6:*(! 60! 1(6! 261! .+,:(!50*!G*(.()620)!05!+!*0+9!5+6+,267!<,01(*!60!6>01(!2;G,2(9!H7!6>(!;(+)!(162;+6(1! 50*!6>(!W)26(9!X2)390;#! ! (iv) Valuation of Non-fatal Road Injuries

T>(!;+\0*!92552<:,67!+110<2+6(9!A26>!0H6+2)2)3!cTS!.+,:(1!50*!G*(.()62)3!)0)_! 5+6+,! 2)\:*2(1! 21! 6>+6! 6>(1(! <0.(*! +! A29(! 1G(<6*:;R! 5*0;! ;2)0*! <:61! +)9! H*:21(1! *(E:2*2)3! )0! >01G26+,21+620)! 60! 2)\:*2(1! *(1:,62)3! 2)! 1(.(*(! G(*;+)()6! 921+H2,267#! P(.(*6>(,(11R!1:<>!(162;+6(1!>+.(!H(()!+66(;G6(9!2)!H06>!6>(!W4@!+)9!6>(!W)26(9! X2)390;#!! ! 8)!6>(!W)26(9!4+6(1R!(VG(*6!;(92<+,!0G2)20)!A+1!<0)1:,6(9!60!0H6+2)!(162;+6(1! 05!k,016!7(+*1!05!5:)<620)2)3l!50*!.+*20:1!<+6(30*2(1!05!2)\:*7#!T0!6>(1(!A(*(!+GG,2(9!+! k.+,:(!G(*!,25(!7(+*l!05!W4o!$&JRJJJ!K$INF!G*2<(1L!2)!0*9(*!60!0H6+2)!+)!(162;+6(!05! 6>(! <016! 05! .+*20:1! 67G(1! 05! 2)\:*7#! T>(! .+,:(! G(*! ,25(! 7(+*! A+1! 261(,5! (162;+6(9! H7! 921<0:)62)3!+)!+11:;(9!.+,:(!05!+!16+62162<+,!,25(!05!W4o!$#ID!;2,,20)!+6!F!G(*!<()6!G(*! +)):;#! ! ! 8)! 6>(! W)26(9! X2)390;R! (162;+6(1! A(*(! H+1(9! 0)! G(*10)+,! 2)6(*.2(A! *(1G0)1(1! 5*0;! +! )+620)+,,7! *(G*(1()6+62.(! 1+;G,(! 05! NI$! G(*10)1! 2)! U)3,+)9R! 4<06,+)9!+)9!c+,(1#!U11()62+,,7!6>(!1:*.(7!;(6>09!2).0,.(9!+1Z2)3!*(1G0)9()61!60! *+6(!6>(!*21Z!05!1:16+2)2)3!.+*20:1!67G(1!05!1(*20:1!2)\:*7!2)!*(,+620)!60!,011!05!,25(#!T>(! 1+;G,(!;(+)1!50*!(+<>!67G(1!05!2)\:*7!A(*(!6>()!+GG,2(9!60!6>(!.+,:(!05!16+62162<+,!,25(! Kb! ?$DR%%J! 2)! $II&! G*2<(1L! 60! +**2.(! +6! +! .+,:(! 50*! G*(.()62)3! (+<>! 67G(! 05! 1(*20:1! 2)\:*7#!T>(!.+,:(1!10!9(*2.(9!A(*(!:1(9!H7!6>(!Y(G+*6;()6!05!T*+)1G0*6!60!2)<*(+1(! 261!.+,:+620)!05!1(*20:1!2)\:*7!5*0;!b!&JRJJJ!KH+1(9!0)!6>(!3*011!0:6G:6!+GG*0+<>L!60! b!?DRJJJ!KH+1(9!0)!6>(!cTS!+GG*0+<>!+)9!+6!$II&!G*2<(1L#!T>(!.+,:+620)!05!1(*20:1! 2)\:*2(1! +1! +! G*0G0*620)! 05! 16+62162<+,! ,25(! *+)3(9! 5*0;! &#D! G(*! <()6! 50*! 0:6G+62()6! 6*(+6;()6!+)9!5:,,!*(<0.(*7!2)!%_=!;0)6>1!60!$JJ!G(*!<()6!50*!G+*+G,(32+gE:+9*2G,(32+! +)9!1(.(*(!>(+9!2)\:*2(1#!W12)3!6>(!+.(*+3(!.+,:(!05!b!?DRJJJ!G(*!2)\:*7R!6>(!.+,:(!05! +!16+62162<+,!,25(!;+7!6>(*(50*(!H(!<+,<:,+6(9!+1!6>(!(E:2.+,()6!05!I#D!1(*20:1!2)\:*2(1#!

(v) Willingness-to-Pay valuations of railway casualties!

c>2,(! 6>(! cTS! +GG*0+<>! >+1! +,10! H(()! +90G6(9! 50*! 6>(! .+,:+620)! 05! <+1:+,62(1!2)!WX!*+2,A+7!+<<29()61R!6>(!+11(11(9!;+3)26:9(!05!.+,:(1!21!<0)129(*+H,7! 3*(+6(*!6>+)!6>+6!+GG,2(9!2)!6>(!<+1(!05!*0+9!+<<29()6!<+1:+,62(1#!!! ! T>(*(! 21! )0! 2)6:262.(! *(+10)! A>7! 6>(*(! 1>0:,9! H(! +)7! 9255(*()<(! H(6A(()! 6>(1(! .+,:(1#! h0A(.(*R! 6>(! 9255(*()<(! +*21(1! 2)! 6>(! G(*<(G620)! 05! +! ;+\0*267! 05! *(1G0)9()61! 60! +<<29()6! .+,:+620)! 1:*.(71! 6>+6! +! *+2,! 12)3,(! +<<29()6! 2).0,.2)3! ;:,62G,(!<+1:+,62(1!<+**2(1!A26>!26!+!3*(+6(*!*21Z!6>+)!1(.(*+,!1;+,,!*0+9!+<<29()61!A26>! 0)(! 0*! 6A0! <+1:+,62(1#! ! T>21! G(*<(G620)! 21! *(2)50*<(9! H7! 6>(! 5+<6! 6>+6R! 67G2<+,,7R! +<<29()61! 2).0,.2)3! 6()! 0*! ;0*(! 5+6+,262(1! +<<0:)6! 50*! +! .(*7! 1;+,,! G*0G0*620)! 05! +,,!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! $$!h[!T*(+1:*7!K$II$L!B!Economic Appraisal in Central Government. A Technical Guide for Government Departments.

F=! *0+9!5+6+,262(1R!A>(*(+1!0.(*!+)!(V6()9(9!G(*209!1:<>!;:,62G,(!5+6+,267!+<<29()61!+*(! ,2Z(,7!60!+<<0:)6!50*!+!;:<>!,+*3(*!G*0G0*620)!05!+,,!*+2,!5+6+,262(1#!! ! T>(! 5:*6>(*! G(*<(G620)! H7! 1:*.(7! *(1G0)9()61! 6>+6! 6>(! *21Z1! 05! *+2,A+7! +<<29()61! +*(! ,+*3(,7! 0:6129(! 05! G+11()3(*1j! <0)6*0,! +,10! 0G(*+6(1! 60! 2)<*(+1(! 6>(! 606+,!<016!05!+!*+2,!5+6+,267!*(,+62.(!60!6>+6!05!+!*0+9!5+6+,267#!T>(!(.29()<(!21!6>+6!G(0G,(! A2,,!H(!A2,,2)3!60!G+7!+!1;+,,(*!+;0:)6!50*!*21Z!*(9:<620)!25!6>(7!G(*<(2.(!6>(!*21Z!60!H(! :)9(*! 6>(2*! 0A)! <0)6*0,R! +11:;(9! .0,:)6+*2,7R! ,+*3(,7! 6>(2*! 0A)! *(1G0)12H2,267R! +)9! +H0.(!3*0:)9#!!T>(!;+\0*267!G(*<(G620)!21!6>+6!+,,!50:*!<0)92620)1!+*(!;(6!2)!6>(!<+1(! 05!*0+9!+<<29()6!*21ZR!H:6!6>+6!2)!6>(!<+1(!05!*+2,A+7!+<<29()6!*21Z!0),7!6>(!,+16!05!6>(! <0)92620)1!21!;(6!K2#(#!;016!*+2,A+7!+<<29()61!0<<:*!+H0.(!3*0:)9LR!+)9!2)!6>(!<+1(!05! :)9(*3*0:)9!;(6*0!*21Z!)0)(!05!6>(!<0)92620)1!21!;(6#!! ! S:H,2<267! 32.()! 60! *+2,A+7! +<<29()61! +,10! 6()91! 60! 2)5,:()<(! G:H,2(!/>+2*;+)!05!6>(!WX!h(+,6>!+)9!4+5(67!UV(<:62.(!A+1!*(<()6,7!E:06(9!+1!1+72)3! 6>+6! k6>(! Q*2621>! G:H,2+1! )0! 60,(*+)<(! 05! +<<29()61! 0)! 6>(! *+2,A+7! y"z! 6()! 0*! 10! 9(+6>1!+!7(+*!+*(!+,,!0.(*!TO!+)9!6>(*(!+*(!6()!9(+6>1!+!9+7!0)!6>(!*0+91l#$&!!!!!

T>(!<:**()6!.+,:+620)!05!G*(.()62)3!+!5+6+,267!2)!+!6*+2)!+<<29()6!2)!6>(!W)26(9! X2)390;!21!<:**()6,7!+H0:6!₤ &#FD!;2,,20)R!A>2<>!21!)(+*,7!6>*((!62;(1!6>(!.+,:+620)!05! G*(.()62)3!5+6+,262(1!2)!06>(*!67G(1!05!*+2,!+<<29()6!0*!2)!*0+9!+<<29()61#!! ! ! M*0;! 6>21! 26! <+)! H(! 1(()! 6>+6! 5+6+,267! .+,:+620)! 2)! ,(.(,! <*0112)3! +<<29()61! 2).0,.2)3!9(+6>1!H06>!05!*+2,A+7!G+11()3(*1!+)9!05!;060*!.(>2<,(!0<<:G+)61!K1:<>!+1! ;23>6! *(1:,6! 5*0;! +! 6*+2)! 9(*+2,;()6! +56(*! <0,,2120)! A26>! +! ;060*! .(>2<,(! +6! +! ,(.(,! <*0112)3R!.2a#!6>(!-06!G*(1()6!10;(!92552<:,67!A>(*(!9255(*()6! .+,:(1! A0:,9! H(! +GG,2(9! 60! *+2,! +)9! *0+9! .(>2<,(! 0<<:G+)61! Z2,,(9! 2)! 6>(! 1+;(! +<<29()6#!

3.4 Level crossing experience of the United States of America

(i) Administration of railway safety policy and regulations

8)! 6>(! W)26(9! 46+6(1R! 6>(! *+2,A+7! 2)9:16*7! 21! 90;2)+6(9! H7! ,+*3(! G*2.+6(! <0)3,0;(*+6(1#! C(3:,+620)! 05! 6>(! 2)9:16*7! 2)! +,,! +1G(<61! 05! 261! 0G(*+620)R! 2)<,:92)3! 1+5(67R! 21! 6>(! *(1G0)12H2,267! 05! 6>(! M(9(*+,! C+2,*0+9! @9;2)216*+620)! KMC@L#! T>(! P+620)+,!4+5(67!T*+)1G0*6+620)!Q0+*9!21!*(1G0)12H,(!50*!6>(!2).(1623+620)!05!+,,!1(*20:1! *+2,A+7! K+)9! 06>(*! 6*+)1G0*6+620)! ;09(L! +<<29()61#! h0A(.(*R! 26! >+1! G0A(*! 0),7! 60! ;+Z(!*(<0;;()9+620)1!d!6>(!:,62;+6(!G0A(*!05!()50*<(;()6!*(129(1!A26>!6>(!MC@#!! ! (ii) Level crossing characteristics ! 8)!(+*,7!$IIIR!6>(*(!A(*(!$DNR?$I!G:H,2(!W)26(9!46+6(1#!K@!G*2.+6(!,(.(,!<*0112)3!21!,0<+6(9!0)!+!G*2.+6(,7! 0A)(9! *0+9! +)9! 21! 2)6()9(9! 50*! :1(! H7! 6>(! 0A)(*j1! ,2<()1((1! 0*! 2).26((1#! 86! 21! )06! 2)6()9(9!50*!G:H,223>A+7!+:6>0*267L#!! ! @)!2)123)252<+)6!G*0G0*620)!05!,(.(,!<*0112)31!21!;+))(9#!e:6129(!05!6>(!;+\0*! 60A)1! +)9! <262(1R! ,(.(,! <*0112)31! +*(! ,+*3(,7! :)G*06(<6(9! H7! H+**2(*1! 0*! 3+6(1#! M,+1>2)3! ,23>61! +)9! +:92H,(! A+*)2)3! ;(<>+)21;1! +*(! 056()! G*0.29(9! +6! *+2,! 2)6(*1(<620)1!A26>!;+\0*!>23>A+71!+1!+!;(+)1!05!+,(*62)3!;060*!.(>2<,(!9*2.(*1R!H:6!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! $&!Judgement versus the cold numbers 2)![09(*)!C+2,A+71R!]:,7!$IIN#!

FD! 6>(!3*(+6!;+\0*267!05!,(.(,!<*0112)31!2)!6>(!W)26(9!46+6(1!+*(!(E:2GG(9!0),7!A26>!52V(9! *0+9!123)1#!! ! ! (iii) Level crossing safety record

46+62162<1!G*0.29(9!H7!6>(!MC@!50*!6>(!6()!7(+*!G(*209!$INN_$IIN!1>0A!6>+6R! 12)<(!$INNR!6>(!):;H(*!05!<0,,2120)1!+6!*0+9_*+2,!3*+9(!<*0112)31!2)!6>(!W)26(9!46+6(1! 9*0GG(9!H7!)(+*,7!>+,5!9(1G26(!+)!$N!G(*!<()6!2)<*(+1(!2)!*+2,!6*+552(!+992620)! 60!6>(!*0+9!)(6A0*Z!05!&J!;2,,20)!)(A!,2<()1(9!9*2.(*1R!0.(*!6>(!1+;(!G(*209#!! ! e.(*! 6>21! G(*209! +,10R! 6>(! ):;H(*! 05! 5+6+,262(1! 2)! ,(.(,! <*0112)3! +<<29()61! 9(<,2)(9!H7!%?!G(*!<()6!+)9!6>(!):;H(*!05!1(*20:1!2)\:*2(1!H7!DJ!G(*!<()6R!+1!;+7!H(! 0H1(*.(9!2)!!M23:*(!%#=#!

Figure 3.4: Trend in level crossing accidents, fatalities and injuries, United States, 1988-1998

?JJJ

FJJJ

DJJJ

=JJJ

Number %JJJ

&JJJ

$JJJ

J $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II? $IIN

-(.(,!/*0112)3!@<<29()61 FF$D FD&D D?$% D%NF =I$J =NI& =I?I =F%% =&D? %NDF %DJN

-(.(,!/*0112)3!M+6+,262(1 FNI NJ$ FIN FJN D?I F&F F$D D?I =NN =F$ =%$

-(.(,!/*0112)3!8)\:*2(1 &DNI &NFN &=J? &JI= $IFI $N%? $IF$ $NI= $F$J $D=J $%J%

Source: FRA Statistics, as reported on the Operation Lifesaver website, October 1999.

T>(!9+6+!2)!M23:*(!%#=!<0.(*!H06>!G:H,2+1!9*+A)!10;(!2)<212.(!0H1(*.+620)1!5*0;!6>(!,+6(16!+.+2,+H,(!MC@!16+62162<1#!!T>(7! +*(B! ! #$ c>(*(+1! =%$! G(*10)1! A(*(! Z2,,(9! 2)! ,(.(,! <*0112)3! <0,,2120)1! 2)! 6>(! W)26(9!46+6(1!2)!$IINR!D%F!G(*10)1!A(*(!Z2,,(9!A>2,(!6*(1G+112)3!0)! *+2,A+7!*23>61_05_A+7!+)9!G*0G(*67f! !

FF! #$ 8)!$IINR!)(+*,7!IF!G(*!<()6!05!+,,!*+2,A+7_*(,+6(9!9(+6>1!*(1:,6(9!5*0;! ;060*! .(>2<,(! <0,,2120)1! A26>! 6*+2)1! +)9! 5*0;! G(9(16*2+)g6*(1G+11(*! 6*+2)!16*2Z(1f!! ! #$ 8)! 6>(! W)26(9! 46+6(1R! +! 6*+2)! <0,,29(1! A26>! +! G(*10)! 0*! .(>2<,(! 0)! +.(*+3(!(.(*7!$$D!;2):6(1f! ! #$ @!;060*216!21!40 times!;0*(!,2Z(,7!60!92(!2)!+!<0,,2120)!A26>!+!6*+2)!6>+)! 2)!+!<0,,2120)!A26>!+)06>(*!.(>2<,(f! ! #$ [0*(! G(0G,(! 92(! 2)! *0+9_*+2,! <*+1>(1! 6>+)! 2)! <0;;(*<2+,! +2*,2)(! <*+1>(1!2)!+)!+.(*+3(!7(+*f! ! #$ [0*(! 6>+)! 50 per cent 05! <*+1>(1! +6! G:H,2(*(! +<62.(!A+*)2)3!9(.2<(1!K3+6(1R!,23>61R!H(,,1L!(V216f! ! #$ @56(*!5:,,!H*+Z(!+GG,2<+620)R!6>(!+.(*+3(!$JJ!<+*!5*(23>6!6*+2)!A26>!+!,2)(! 1G((9!05!DD!;2,(1!G(*!>0:*!KNN#D!Z;!G(*!>0:*L!A2,,!*(E:2*(!;0*(!6>+)! 0)(!;2,(!K$#F$!Z;L!60!160G!+)9!+)!+.(*+3(!N!<+*!G+11()3(*!6*+2)!A26>! +!,2)(!1G((9!05!?I!;2,(1!G(*!>0:*!K$&?!Z;!G(*!>0:*L!A2,,!*(E:2*(!+H0:6! 0)(!;2,(!60!160Gf! ! #$ T>(! 2;G,2<+620)1! 05! 6>(! +H0.(! 0H1(*.+620)! +*(! 6>+6! +! 5*(23>6! 6*+2)! 123>6(9!+6!+!9216+)<(!05!$DJ!;(6*(1!5*0;!+!<*0112)3!A0:,9!6+Z(!0),7!F! 1(<0)91! 60! *(+<>! 6>+6! <*0112)3R! A>2,(! +! G+11()3(*! 6*+2)! A0:,9! 6+Z(! 0),7!=#%!1(<0)91!60!<0.(*!6>(!1+;(!9216+)<(f! ! #$ T>(!;+\0*267!05!*0+9_*+2,!<*+1>(1!2)!6>(!W)26(9!46+6(1!0<<:*!A>()!6>(! 6*+2)!21!6*+.(,,2)3!+6!less than 30 miles per hour!K=N#%!Z;!G(*!>0:*L$%R! +)9! ! #$ 40;(!?%!G(*!<()6!05!+,,!<0,,2120)1!H(6A(()!;060*!.(>2<,(1!+)9!6*+2)1! 0<<:*! 2)! $=! 16+6(1R! )+;(,7B! @,+H+;+R! @*Z+)1+1R! /+,250*)2+R! '(0*32+R! 8,,2)021R! 8)92+)+R! -0:212+)+R! [2<>23+)R! [2))(106+R! [2112112GG2R! P0*6>! /+*0,2)+R! eZ,+>0;+R! T(V+1! +)9! c21<0)12)#! c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six times 8)92+j1!606+,!):;H(*!05!,(.(,!<*0112)31!+)9!>:)9*(91!05!62;(1!261!;060*2a+620)!,(.(,1#! @992620)+,,7R! A>2,(! +! *(,+62.(,7! 1;+,,! G*0G0*620)! 05! ,(.(,! <*0112)3! 5+6+,262(1! 2)! 8)92+! 0<<:*1! 2)! +<<29()61! +6! G*06(<6(9! ,(.(,! <*0112)31R! 1:<>! +<<29()61! +<<0:)6! 50*! +H0:6! >+,5!05!+,,!,(.(,!<*0112)3!5+6+,262(1!2)!6>(!W)26(9!46+6(1#!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! $%!Highway-Rail Facts 5*0;!eG(*+620)!-25(1+.(*!8)

F?! (iv) Reasons for level crossing safety improvement in the United States

T>(! G:H,2+.(!;+9(!+!1:H16+)62+,!<0)6*2H:620)!60!6>(!1>+*G!9(<,2)(!2)! ,(.(,! <*0112)3! +<<29()61R! 5+6+,262(1! +)9! 2)\:*2(1! 2)! 6>(! W)26(9! 46+6(1! 0.(*! 6>(! G+16! 9(<+9(#! ! eG(*+620)! -25(1+.(*! 21! +! )0)_G*0526R! )+620)A29(! G:H,2+.2)3! 6>(! 0H\(<62.(! 05! (,2;2)+62)3! <0,,2120)1R! 9(+6>1! +)9! 2)\:*2(1! +6! *0+9_*+2,! 2)6(*1(<620)1! +)9! 0)! *+2,A+7! *23>61_05_A+7#! 86! 21! 1G0)10*(9! H7! +! A29(! *+)3(! 05! 30.(*);()6! +3()<2(1! K2)<,:92)3! 5(9(*+,R! 16+6(! +)9! ,0<+,! 30.(*);()6! 6*+)1G0*6! +:6>0*262(1L!+1!A(,,!+1!H7!6>(!>23>A+7!1+5(67!+)9!;+2)6()+)<(!0*3+)2a+620)1!+)9!6>(! )+620)j1!*+2,*0+91#! ! T>(!eG(*+620)!-25(1+.(*!G*03*+;;(!+2;1!60!2)<*(+1(!G:H,2(*(!*0+91!<*011!6*+2)!6*+61_05_A+7#!86!1((Z1! 60!2;G*0.(!9*2.(*!+)9!G(9(16*2+)!H(>+.20:*!+6!*0+9_*+2,!2)6(*1(<620)1!H7!()<0:*+32)3! <0;G,2+)<(!A26>!6*+552(!G*03*+;;(!(;G>+12a(1!6>(!()50*<(;()6!05!(V2162)3!6*+552

! eG(*+620)! -25(1+.(*! A+1! 50:)9(9! 2)! 89+>0! 2)! $I?&R! +56(*! 6>(! W)20)! S+<252(*! 2)! +! <+;G+23)! 60! *(9:<(! 6>(! 3*0A2)3! ):;H(*! 05! *0+9_*+2,! ,(.(,! <*0112)3! <0,,2120)1#! T>(! G:H,2(7! <*(+6(9! A+1! ,+*3(,7! *(1G0)12H,(! 50*! +! =%! G(*! <()6! 9*0G! 2)! ,(.(,! <*0112)3!5+6+,262(1!9:*2)3!6>(!52*16!7(+*!05!261!0G(*+620)#! ! ! 8)!$IINR!6>*0:3>0:6!6>(!W)26(9!46+6(1R!6*+2)(9!eG(*+620)!-25(1+.(*!G*(1()6(*1! 9(,2.(*(9!%JRJJJ!1+5(67!G*(1()6+620)1!60!)(+*,7!&!;2,,20)!2)92.29:+,1R!05!A>0;!+H0:6! >+,5! A(*(! 1<>00,<>2,9*()#! @)06>(*! 3*0:G! 6+*3(6(9! 2)! 6>(! eG(*+620)! -25(1+.(*! <+;G+23)! 21! 6*:21! 3*0:G! 5(+6:*(1! G*0;2)()6,7! 2)! ,(.(,! <*0112)3! +<<29()6! 16+62162<1#! 8)! $IINR! +H0:6! $R$JJ! G*(1()6+620)1! A(*(! 32.()! 60! =JRJJJ! G*05(1120)+,!6*:(!8)6(*)(6L!60! H*0+9<+16! ,(.(,! <*0112)3! 1+5(67! ;(11+3(1#! UV+;G,(1! 05! 6>(! 6(,(.2120)! +)9! .29(0! <+;G+23)1!*:)!*(<()6,7!+*(B! ! #$ kT>(!C(1G0)12H2,267!21!e:*1lR!+!.29(0!52,;!G*09:<(9!2)!<00G(*+620)!A26>! 6>(!M(9(*+,!h23>A+71!@3()<7!KMhc@L!+56(*!+!5+6+,!<0,,2120)!H(6A(()!+! 1<>00,!H:1!+)9!+!6*+2)!+)9!6+*3(6(9!+6!1<>00,!H:1!9*2.(*1f! ! #$ kY2(!h+*9!25!r0:j*(!Y:;HlR!+)![TO_167,(!.29(0!<*(+6(9!H7!6(()+3(*1! 50*!6(()+3(*1!A26>!5:)92)3!+11216+)<(!5*0;!6>(!Mhc@f! ! #$ !kT>(7! 4>0:,9)j6! Y2(! T>21! c+7lR! +! .29(0! 52,;! G*09:<(9! A26>! 5:)92)3! 5*0;! 6>(! Y(G+*6;()6! 05! T*+)1G0*6+620)! +)9! +11216+)<(! 5*0;! )+620)+,! ,+A! ()50*<(;()6! +)9! 52*(_523>62)3! 3*0:G1! A26>! +! 50<:1! 0)! (;(*3()<7! *(1G0)9(*1!60!,(.(,!<*0112)3!+<<29()61f!+)9! ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! $=!What is Operation Lifesaver!5*0;!eG(*+620)!-25(1+.(*!A(H126(!e<60H(*!$III#!

FN! #$ kh23>A+71! 0*! Y2(A+71B! 6>(! />02<(! 21! r0:*1l! d! 1G06! 6(,(.2120)! +9.(*621(;()61! +)9! G0112H,7! 6>(! ;016! G0A(*5:,! G:H,2! 1((9! 5:)92)3! 05! W4o! &#D! ;2,,20)! 5*0;! 6>(! @110<2+620)! 05! @;(*2<+)! C+2,*0+91! +)9! 90)+6(9! H*0+9<+16! 62;(! 60! 6>(! .+,:(! 05! W4o! D#J! ;2,,20)! 12)<(! 6>(! <+;G+23)! H(3+)!2)!T(V+1!2)!$IIF#!!T>(1(!+9.(*621(;()61!+*(!(162;+6(9!60!>+.(! 10!5+*!*(+<>(9!$JJ!;2,,20)!@;(*2<+)!.2(A(*1#! ! ! @)06>(*!;+\0*!(;G>+121!2)!6>(!A0*Z!05!eG(*+620)!-25(1+.(*!21!6>(!,0HH72)3!05! 5(9(*+,! +)9! 16+6(! 30.(*);()61! 60! 16*()36>()! 6>(2*! >23>A+7! <09(1! +)9! *+2,A+7! 6*(1G+11!,+A1#!423)252<+)6,7R!A>2,(!6>(*(!>+1!H(()!+!9*+;+62(!):;H(*!05! <0,,2120)1!H(6A(()!;060*!.(>2<,(1!+)9!6*+2)1R!*+2,A+7!+<<29()61!2).0,.2)3!G(9(16*2+)1! >+.(!H(()!0)!6>(!2)<*(+1(R!60!6>(!(V6()6!05!$=!G(*!<()6!G(*!7(+*!H+1(9!0)!6>(!,+6(16! +.+2,+H,(!16+62162<1#!e-8!>+1!1:GG0*6(9!6>(!+90G620)!H7!16+6(!30.(*);()61!05!6>(!W4! Y(G+*6;()6!05!T*+)1G0*6+620)j1!Model State Railroad Trespass and Vandalism Bills KG:H,21>(9!2)!$II?L#!46+6(!G()+,62(1!50*!6*(1G+11!0)!*+2,*0+9!G*0G(*67!)0A!*+)3(!5*0;! oD! 60! o&RDJJR! +)9! ;016! 05! 6>(! 52)(1! 2;G01(9! +*(! 2)! 6>(! 2)<0)1(E:()62+,! *+)3(#! 8)! 10;(! 126:+620)1R! +,10R! ,0<+,! G0,2<(! ;:16! >+.(! A*266()! G(*;21120)! 5*0;! +! *+2,*0+9! H(50*(!6>(7!<+)!211:(!+!52)(!0*!+**(16!G(*10)1!6>(7!52)9!6*(1G+112)3!0)!*+2,*0+9!,+)9#! ! M2)+,,7R! e-8! >+1! H(()! ,0HH72)3! 6>(! 5(9(*+,! 30.(*);()6! 60! *(E:2*(! 16+6(! +:6>0*262(1!+)9!*+2,*0+91!60!*(G0*6!60!6>(!MC@!0)!+!62;(,7!H+121!<0;G*(>()12.(!+)9! +<<:*+6(!2)50*;+620)!0)!,(.(,_<*0112)3!+)9!6*(1G+11(*!+<<29()61g2)<29()61R!2)<,:92)3! 6>(!.26+,!9(;03*+G>2(!G(*10)1!2).0,.(9!2)!6>(1(!(.()61#!! ! ! 3.5 Level crossing experience of Canada

(i) Administration of rail safety policy and regulations in Canada

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h0:1(!05!/0;;0)1#!T>(1(!2)<,:9(9B! ! #$ +!)(A!G0,2<7!16+6(;()6f! #$ +:6>0*267!60!*(E:2*(!*+2,A+71!60!*(G0*6!1+5(67_<*262<+,!2)50*;+620)!50*!6>(! G:*G01(!05!*(.2(A2)3!*+2,A+7!1716(;!1+5(67!G(*50*;+)<(f!

FI! #$ +:6>0*267! 60! *(E:2*(! *+2,A+71! 60! 2;G,(;()6! 4+5(67! ;+)+3(;()6! 4716(;1f!+)9! #$ 2)<*(+1(9!+:6>0*267!50*!*+2,!1+5(67!2)1G(<60*1$D! ! (ii) Level crossing characteristics ! c>2,(! )0! G*(<21(! 2)50*;+620)! 21! +.+2,+H,(! 0)! ,(.(,! <*0112)3! ):;H(*1! +)9! 67G(1R! 26! +GG(+*1! ,2Z(,7! 6>+6! 2)! <0;;0)! A26>! 6>(! W)26(9! 46+6(1R! /+)+9+! >+1! +! G*(90;2)+)<(!05!:);+))(9R!:)G*06(<6(9!,(.(,!<*0112)31#!!! ! (iii) Trend in of level crossing accidents, fatalities and injuries

e.(*!6>(!)2)(!7(+*!G(*209!5*0;!$INN!60!$II?R!+<<29()61!+6!,(.(,!<*0112)31!2)! /+)+9+! 9*0GG(9! 1>+*G,7! _! 5*0;! DJ&! 60! %J?#! T>21! 9(<,2)(! A+1! +,10! *(5,(<6(9! 2)! +! 9(<,2)2)3!accident rate, 5*0;!=#JJ!,(.(,!<*0112)3!+<<29()61!G(*!;2,,20)!6*+2)!Z2,0;(6*(1! 2)!$INN!60!0),7!&#==!G(*!;2,,20)!6*+2)!Z2,0;(6*(1!2)!$II?!K1((!M23:*(!%#DL#!!

Figure 3.5: Level Crossing Accidents in Canada

FJJ =#DJ

=#JJ DJJ %#DJ

=JJ %#JJ

&#DJ %JJ

Number &#JJ Number per MTK &JJ $#DJ

$#JJ $JJ J#DJ

J J#JJ $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II?

-(.(,!/*0112)3 DJ& =FI %NF =J? %N? %?N %NI %NJ %FF %J? @<<29()61!KP0L

-(.(,!<*0112)3 =#JJ %#I& %#D$ %#=J %#&% %#JN &#I% %#J% %#J$ &#== @<<29()61g[TX

Source: T*+)1G0*6!4+5(67!Q0+*9R!/+)+9+R!46+62162<+,!Q:,,(62)!$II?#! ! NoteB!!!!!![TX!v![2,,20)!T*+2)_X2,0;(6*(1#! ! ! 8)!6>(!<+1(!05!,(.(,!<*0112)3!fatalitiesR!6>(!2;G*0.(;()6!>+1!H(()!(.()!;0*(! 9*+;+62! 6>(! ):;H(*! 05! 9(+6>1! 5+,,2)3! +,;016! H7! >+,5! 2)! 6>(! )2)(! 7(+*! G(*209R! 5*0;!DN!2)!$INN!60!%J!2)!$II?!K1((!M23:*(!%#FL#!@6!6>(!1+;(!62;(R!6>(!fatality rates 5(,,! 5*0;!J#=F!60!J#&=!G(*!;2,,20)!6*+2)!Z2,0;(6*(1#! !

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! $D!!T*+)1G0*6!/+)+9+!C+2,!4+5(67!8)262+62.(1R!D!P0.(;H(*!$IIN#!

?J! ! -(.(,!<*0112)3!5+6+,262(1!+1!+!G*0G0*620)!05!T06+,!C+2,A+7!M+6+,262(1!2)!/+)+9+! >+.(!H(()!5+,,2)3!<0)1216()6,7#!h0A(.(*R!+6!=&!G(*!<()6!2)!$IIFR!6>(7!162,,!*(G*(1()6(9! +!,+*3(!G*0G0*620)!05!+,,!9(+6>1!2)!*+2,A+7!+<<29()61#!! ! ! 86! 21! )06(A0*6>7! 6>+6R! 9(1G26(! 6>(! ;+*Z(9! 9(<,2)(! 2)! 0.(*+,,! ,(.(,! <*0112)3! 5+6+,262(1!H(6A(()!$INN!+)9!$II?R!6>(!G*0G0*620)!05!G(*10)1!Z2,,(9!+6!,(.(,!<*0112)31! (E:2GG(9!A26>!automatic warning devices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

Figure 3.6: Level Crossing Fatalities in Canada

IJ J#NJ

NJ J#?J

?J J#FJ

FJ J#DJ

DJ J#=J

Number =J Numbe/MTK J#%J %J

J#&J &J

$J J#$J

J J#JJ $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II?

-#/#!M+6+,262(1 DN ND =N F& ?% DF D= D% =? %J

M+6+,262(1g[TX J#=F J#?$ J#== J#D& J#F$ J#=F J#=$ J#=& J#%I J#&= Year

Source: T*+)1G0*6!4+5(67!Q0+*9R!/+)+9+R!46+62162<+,!Q:,,(62)!$II?#! Note: [TX!v![2,,20)!T*+2)_X2,0;(6*(1#!

?$! (iv) Transport Canada Level Crossing Safety Initiatives ! 8)!6>(!<0)6(V6!05!,(.(,!<*0112)3!1+5(67!()>+)<(;()6R!T*+)1G0*6!/+)+9+!>+1! 6+Z()!2)262+62.(1!60!50*;+,2a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c>2,(!1+5(67!+A+*()(11!21!+!<0;;0)!<>+*+<6(*2162+*+<6(*2162(!;+\0*267!05!@12+)!10<2(62(1#!!! ! ! 3.6 Level crossing experience of continental Europe

T*()91! 2)! 6>(! ):;H(*! +)9! 1+5(67! G(*50*;+)<(! 05! ,(.(,! <*0112)31! 50*! 50:*! c(16(*)! U:*0G(+)! *+2,A+7! 1716(;1! KYQR! 4P/QR! 4P/MR! P4L$F! A(*(! +11(11(9R! +1! A(*(!;(6>091!05!*21Z!+11(11;()6!+1!+GG,2(9!60!,(.(,!<*0112)3!1+5(67!()>+)<(;()6!2)! 6>(!P(6>(*,+)91#! ! (i) Trend in level crossing numbers, by type

T>(!6*()9!2)!6>(!606+,!):;H(*!05!,(.(,!<*0112)31!2)16+,,(9!0)!(+<>!05!6>(!50:*! *+2,A+7! 1716(;1! 1:*.(7(9! 21! 1>0A)! 2)! M23:*(! %#?#! ! e.(*! 6>(! 6()_7(+*! G(*209! $INN_ $IINR! 6>(! 606+,! ):;H(*! 05! ,(.(,! <*0112)31! <+)! H(! 1(()! 60! H(! reducing!+6!+!*+6(!05! +H0:6! $#F! d! &#J! G(*! <()6! G(*! +)):;! 2)! Q(,32:;R! M*+)<(! +)9! 6>(! P(6>(*,+)91R! H:6! increasing!+6!+!*+6(!+.(*+32)3!+H0:6!&#D!G(*!<()6!G(*!+)):;!2)!'(*;+)7#!!T>(!6*()9! 50*!'(*;+)7R!>0A(.(*!A+1!2)5,:()<(9!H7!6>(!+H10*G620)!05!6>(!*+2,A+71!05!6>(!50*;(*! '(*;+)!Y(;0<*+62+6!6>(!9(<,2)2)3!6*()9!2)! 6>*((!0:6!05!6>(!50:*!<0:)6*2(1!1:*.(7(9!21!9:(!60!+!16(+92,7!(VG+)92)3!G*03*+;;(!05! 3*+9(!1(G+*+620)R!*+6>(*!6>+)!60!6>(!<,01:*(!05!,(.(,!<*0112)31!G(*!1(#!

@,6>0:3>! )0! *(<()6! 9+6+! +*(! +.+2,+H,(! 50*! '(*;+)7R! 26! +GG(+*1! 6>+6! :)G*06(<6(9!<*0112)31!<0;G*21(!+1!;:<>!+1!=?!G(*!<()6!05!YQj1!606+,!,(.(,!<*0112)31R! A26>! +:60;+62

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! $F!T>(1(!+HH*(.2+620)1!123)257!6>(!*+2,A+7!1716(;1!05!6>(!50,,0A2)3!<0:)6*2(1f! ! ! ! YQ!!!!!!d!'(*;+)7! ! ! 4P/Q!d!Q(,32:;! ! ! 4P/M!d!M*+)<(! !! ! P4!!!!!!_!!P(6>(*,+)91! ! !!!!

?&! ! ! Figure 3.7: Number of level crossings in Western Europe

%JJJJ

&DJJJ YQ!K'(*;+)7L &JJJJ 4P/Q!KQ(,32:;L 4P/M!KM*+)<(L P4!KP(6>(*,+)91L $DJJJ -2)(+*!KYQ!K'(*;+)7LL -2)(+*!K4P/M!KM*+)<(LL $JJJJ -2)(+*!K4P/Q!KQ(,32:;LL

No. L.C.'s (all types) -2)(+*!KP4!KP(6>(*,+)91LL DJJJ

J $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II? $IIN YQ!K'(*;+)7L &JI? &J%? &J&F &JJ& &J%N &J%& &=&= &=F% &NJ= &FIN 4P/Q!KQ(,32:;L &D$J &%=I &%=F &%$J &&N% &&JN &&%J &&$N &$IN &$== 4P/M!KM*+)<(L &$DJ &$=& &$&F &JNI &J&N $I=N $NFF $N&? $??? $?D? $?D$ P4!KP(6>(*,+)91L %=N& %=$& %%ND %&NJ %$%N %JNF %JF? %JF$ &IN% &I=F &IF=

Source: International Union of Railways (UIC).

e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

(ii) Trend in level crossing accidents, fatalities and injuries

(a) Accidents

e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

?%! Figure 3.8: Level crossing accidents in Western Europe

1000

900

800

700

600

500

400

300 Number accidents of 200

100 0 $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II? $IIN

YQ!K'(*;+)7L ?&= ?%D ?N& F&N FJ% DF% =&N =N% 4P/Q!KQ(,32:;L &D $I $I && %? %% &N $? &= &I %& 4P/M!KM*+)<(L &&& &J$ &$& &%D $N= $?D $?I $D= $FF $FD $DD P4!KP(6>(*,+)91L I= ID $$D $%J I& $DI $&J

Source: (1) UIC. (2) “Protection and elimination of level crossings” in Rail International, June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declining! 0.(*! 6>(! G+16! $J! 7(+*1! +6! +H0:6!$#F!G(*!<()6!G(*!7(+*R!H:6!,(.(,!<*0112)3!+<<29()61!>+.(!H(()!increasing!+6!+! *+6(!05!+H0:6!%!G(*!<()6!G(*!7(+*#! ! @992620)+,! 2)50*;+620)! +.+2,+H,(! 50*! 4P/M! G*0.29(1! +! H*(+Z90A)! 05! ,(.(,! <*0112)3!+<<29()61!H7!67G(!05!<*0112)3#!T>21!2)50*;+620)!>+1!H(()!3*+G>(9!2)!M23:*(! %#$J# 86! 1>0A1! 6>+6! +:60;+62! F?! G(*! <()6! 6()! 7(+*1! (+*,2(*L#! c>2,(! 6>(! +H10,:6(! ):;H(*1! 05! +<<29()61!+6!+:60;+62(!*+6(!05!&#%!G(*!<()6!G(*!+)):;! 0.(*!6>21!G(*209R!6>01(!+6!:)G*06(<6(9!<*0112)31!*(9:<(9!+6!;0*(!6>+)!90:H,(R!+)9! 6>01(!+6!;+))(9!<*0112)31!+6!;0*(!6>+)!1(.()!62;(1!6>21!*+6(#!c>2,(!26!21!)06!G0112H,(! 60! (VG,+2)! 6>(! *(,+62.267! 05! 6>(1(! 6*()91! A26>0:6! ;0*(! 2)50*;+620)! *(,+62)3! 60! 6>(! ,0<+620)! K(#3#! :*H+)! .1#! )0)_:*H+)L! +)9! <0;H2)(9! *0+9g*+2,! 6*+552(! <*0112)31!2).0,.(9R!it would seem that automatic level crossings pose a considerable safety threat to the French railway system#!

?=! !

Figure 3.9: Relative trends in numbers of level crossings and accidents - France

&DJJJ &DJ

&JJJJ &JJ

$DJJJ $DJ Number

$JJJJ $JJ

DJJJ DJ

J J $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II? $IIN

P0#-#/#u1!K+,,!67G(1L &$DJD &$=&$ &$&FN &JNIF &J&N= $I=NN $NFF% $N&?J $???= $?D?I $?D$= @,,!-#/#!+<<29()61 &&& &J$ &$& &%D $N= $?D $?I $D= $FF $FD $DD

Source: UIC.

Figure 3.10 : Level crossing accidents, by type of crossing – France

180

160

140

120

100

60 Number of accidents Number of

0 $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II? $IIN

@:60;+62

Source: UIC.

c>()! (VG*(11(9! +1! +! *+6(! G(*! :)26! 05! *+2,! 6*+55221! <+1(! ;2,,20)! 6*+2)_ Z2,0;(6*(1R!6>(!+<<29()6!0<<:**()<(!A+1!A0*16!2)!6>(!P(6>(*,+)91!A>2<>!2)!$IIF!>+9! more than one level crossing accident for every million train kilometres!0.(*!6>(!P4! *+2,!)(6A0*Z#!!P06A26>16+)92)3!9+6+!921<0)62):262(1R!+!*212)3!6*()9!2)!6>(!,(.(,!<*0112)3! +<<29()6!*+6(!21!+GG+*()6!50*!6>(!P(6>(*,+)91!0.(*!6>(!G+16!9(<+9(!d!1((!M23:*(!%#$$#! Q7!<0)6*+16R!+<<29()6!*+6(1!2)!'(*;+)7!+)9!M*+)<(!A(*(!5+,,2)3R!A>2,(!2)!Q(,32:;!6>(! +<<29()6!*+6(!*(;+2)(9!+,;016!16+62(!9(<+9(#!

?D! ! Figure 3.11: Level crossing accident rates in Western Europe

1.2

0.8

0.6

0.4 0.2 No. L.C. accidents per mill. train km 0 $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II?

YQ!K'(*;+)7L J#ND J#N= J#IJ J#?& J#?J J#FF J#D$ 4P/Q!KQ(,32:;L J#&? J#&$ J#&$ J#&= J#=J J#%F J#%$ J#$I J#&? J#%& 4P/M!KM*+)<(L J#=F J#=& J#== J#=I J#%N J#%? J#%N J#%= J#%= J#%% P4!KP(6>(*,+)91L J#NJ J#NJ J#IN $#$J J#?N $#J$

Source: UIC. ! (b) Fatalities

@1!21!1>0A)!2)!M23:*(!%#$&R!0),7!'(*;+)7!+;0)3!6>(!50:*!1716(;1!1:*.(7(9! *(3216(*(9!+!123)252<+)6!+)9!1:16+2)(9!*(9:<620)!2)!6>(!):;H(*1!05!G(*10)1!Z2,,(9!2)! ,(.(,! <*0112)3! +<<29()61! 0.(*! 6>(! 9(<+9(! H(6A(()! $INN! +)9! $IIN#! 8)! M*+)<(! +)9! Q(,32:;! 6>(! ,0)3! 6(*;! 6*()9! 2)! 5+6+,262(1! A+1! +,;016! 5,+6R! +,6>0:3>! 2)! 6>(! <+1(! 05! M*+)<(R!6>(*(!A+1!+!1:99()!:G6:*)!2)!,(.(,!<*0112)3!9(+6>1!2)!$IIN!KD%!+1!+3+2)16! 0),7! &D! 2)! 6>(! G*(.20:1! 7(+*L#! c>2,(! 6>(! 9(<,2)2)3! 6*()9! 2)! 5+6+,262(1! 2)! '(*;+)7! 21! ()<0:*+32)3R! 6>(! 9+6+! 50*! $IIN! 2)92<+6(! 6>+6! ;0*(! 6>+)! $JJ! G(*10)1! 92(9! 2)! ,(.(,! <*0112)3!+<<29()61!2)!'(*;+)7!2)!6>+6!7(+*#!T>(!9+6+!1(*2(1!50*!6>(!P(6>(*,+)91!21! 921<0)62):0:1R!H:6!2)92<+6(1!,(.(,!<*0112)3!5+6+,262(1!05!+H0:6!6>(!1+;(!;+3)26:9(!+1! 6>01(!05!M*+)<(!A>2<>!>+1!+,;016!12V!62;(1!6>(!):;H(*!05!,(.(,!<*0112)31#! ! Figure 3.12: Level crossing fatalities in Western Europe

160

140

120

100

60 Number of fatalities

20 0 $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II? $IIN

YQ!K'(*;+)7L $$F $%D $&$ $$J II $J& NF $J$ 4P/Q!KQ(,32:;L $= ? N I I $F $? $$ $? $& $& 4P/M!KM*+)<(L %% =? %I DJ %I %= &% %? %I &D D% P4!KP(6>(*,+)91L &F %J &= %F &D =D %%

Source: (1) UIC. (2) “Protection and elimination of level crossings” in Rail International, June 1999.

?F! /0)129(*+H,7! ;0*(! 2)50*;+620)! 0)! 6>(! ,0<+620)! +)9! <2*<:;16+)<(1! 05! +<<29()61! 2).0,.2)3! 5+6+,262(1! 21! )((9(9! H(50*(! <0)<,:120)1! <+)! H(! 9*+A)! +1! 60! 6>(! ;+\0*! 5+<60*1! <0)6*2H:62)3! 60! 6>(1(! 6*()91#! P(.(*6>(,(11R! 6>(7! +*(! *(2)50*<(9! H7! 6*()91!2)!6>(!,(.(,!<*0112)3!5+6+,267!rates, +1!;+7!H(!1(()!2)!M23:*(!%#$%# !T>(1(!+,10! 2)92<+6(!+!;+*Z(9!2;G*0.(;()6!+)9!+!16(+97!2;G*0.(;()6!*(1G(<62.(,7!2)!6>(!<+1(1! 05!'(*;+)7!+)9!M*+)<(R!+!16(+92,7!*212)3!6*()9!2)!Q(,32:;!+)9!+!1:H16+)62+,,7!*212)3! 6*()9! 2)! 6>(! P(6>(*,+)91#! @6! J#&N! G(*10)1! Z2,,(9! G(*! ;2,,20)! 6*+2)_Z2,0;(6*(1R! 6>(! 5+6+,267!*+6(!2)!6>(!P(6>(*,+)91!2)!$IIF!A+1!;0*(!6>+)!90:H,(!6>+6!05!'(*;+)7!+)9! ;0*(!6>+)!6*(H,(!6>+6!05!M*+)<(!50*!6>(!1+;(!7(+*#!86!21!2)6(*(162)3!60!)06(!6>+6!M*+)<(! A26>! 0),7! J#JD! 5+6+,262(1! G(*! ;2,,20)! 6*+2)_Z;! 2)! $II?! >+1! 0)(! 05! 6>(! ,0A(16! ,(.(,! <*0112)3!9(+6>!*+6(1!2)!6>(!A0*,9R!9(1G26(!>+.2)3!\:16!:)9(*!0)(!E:+*6(*!05!261!,(.(,! <*0112)31!:)G*06(<6(9!+)9!+!G*(90;2)+)<(!05!:);+))(9!+:60;+62

0.4

0.35

0.3

0.25

0.2

0.15 0.1

No.fatalities per mill. train-km No.fatalities 0.05

0 $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II?

YQ!K'(*;+)7L J#$= J#$F J#$= J#$% J#$& J#$& J#$J 4P/Q!KQ(,32:;L J#$D J#JN J#JI J#$J J#$J J#$N J#$I J#$% J#$I J#$% 4P/M!KM*+)<(L J#J? J#$J J#JN J#$J J#JN J#J? J#JD J#JN J#JN J#JD P4!KP(6>(*,+)91L J#&& J#&D J#&J J#%$ J#&$ J#%N J#&N

Source: (1) UIC. (2) “Protection and elimination of level crossings” in Rail International, June 1999.

(c) Injuries ! Y:*2)3!6>(!6()!7(+*!G(*209!$INN_$IINR!0),7!'(*;+)7!;+)+3(9!60!+<>2(.(!+! 123)252<+)6!*(9:<620)!2)!6>(!):;H(*!05!G(*10)1!2)\:*(9!2)!,(.(,!<*0112)3!+<<29()61#!8)! 6>(! 06>(*! 6>*((! <0:)6*2(1R! 6>(! ):;H(*! 05! G(*10)1! 2)\:*(9! +6! ,(.(,! <*0112)31! A+1! +,;016!16+62(!9(<+9(#!T>(!*(,(.+)6!6*()91!;+7!H(!1(()!2)!M23:*(!%#$=#

??! Figure 3.14: Level crossing injuries in Western Europe

450

400

350

300

250

200

150 Number of injuries Number of

100

0 $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II? $IIN

YQ!K'(*;+)7L &IJ %== %DI &FD %=& &ND &$% &&% 4P/Q!KQ(,32:;L $? $= $I $? $$ $$ F $% ?% $I $% 4P/M!KM*+)<(L &F &= $D %D $I &N $N $I $? &= &= P4!KP(6>(*,+)91L %= =$ =D F$ %J %I %D

Source: (1) UIC. (2) “Protection and elimination of level crossings” in Rail International, June 1999.

8)! 6(*;1! 05! 6>(! *+6(! 05! ,(.(,! <*0112)3! 2)\:*2(1! G(*! ;2,,20)! 6*+2)_Z;R! '(*;+)7! +3+2)!9(;0)16*+6(9!6>(!;016!123)252<+)6!2;G*0.(;()6!05!6>(!50:*!<0:)6*2(1!1:*.(7(9R! A26>!+)!2)\:*7!*+6(!9(<,2)2)3!5*0;!J#%=!G(*!;2,,20)!6*+2)_Z;!2)!$II$!60!J#&D!G(*!!;2,,20)! 6*+2)_Z;!2)!$II?#!M*+)<(j1!,(.(,!<*0112)3!2)\:*7!*+6(!A>2,(!*(;+2)2)3!16+62(! 9(<+9(!A+1!+3+2)!+;0)3!6>(!A0*,9j1!,0A(16R!A26>!0),7!J#JD!G(*10)1!2)\:*(9!2)!,(.(,! <*0112)3!+<<29()61!G(*!;2,,20)!6*+2)_Z;!2)!$II?#!Q7!<0)6*+16!A26>!261!G(*50*;+)<(!2)! 6(*;1! 05! ,(.(,! <*0112)3! +<<29()61! +)9! 5+6+,262(1R! 6>(! P(6>(*,+)91! 9(;0)16*+6(9! +! 9(<,2)2)3! 6*()9! 2)! 261! 2)\:*7! *+6(! 0.(*! 6>(! 9(<+9(! d! A>2,(! 2)! Q(,32:;! 6>(! ):;H(*! 05! G(*10)1!2)\:*(9!G(*!;2,,20)!6*+2)_Z;!50,,0A(9!+!*212)3!6*()9R!2)5,:()<(9!;+2),7!H7!+)! :)(VG,+2)(9!1>+*G!2)<*(+1(!2)!,(.(,!<*0112)3!2)\:*2(1!2)!$IIF#!! ! Figure 3.15: Level crossing injury rates in Western Europe

0.6

0.5

0.4

0.3

0.2

0.1 No.injuries perNo.injuries mill.train-km

0 $INN $INI $IIJ $II$ $II& $II% $II= $IID $IIF $II?

YQ!K'(*;+)7L J#%= J#=J J#=$ J#%J J#=J J#%= J#&D 4P/Q!KQ(,32:;L J#$N J#$D J#&$ J#$N J#$& J#$& J#$% J#$F J#&= J#&= 4P/M!KM*+)<(L J#JD J#JD J#J% J#J? J#J= J#JF J#J= J#J= J#J% J#JD P4!KP(6>(*,+)91L J#&I J#%D J#%N J#D& J#&D J#%% J#&I

Source: (1) UIC. (2) “Protection and elimination of level crossings” in Rail International, June 1999.

?N! (iii) Analysis of level crossing safety performance in the Netherlands

86!21!123)252<+)6!6>+6!6>(!9(6(*20*+62)3!1+5(67!G(*50*;+)<(!05!*0+9g*+2,!<*0112)31! 2)!6>(!P(6>(*,+)91!0.(*!6>(!G+16!9(<+9(!>+1!<02)<29(9!A26>!6>(!9(_;+))2)3!05!6>(! ,+16! ;+))(9! ,(.(,! <*0112)31! 2)! 6>+6! <0:)6*7! +)9! 6>(2*! *(G,+<(;()6! A26>! +:60;+622,(!6>(!0.(*+,,!):;H(*!05!,(.(,!<*0112)31! 2)!6>(!P(6>(*,+)91!<0)6*+<6(9!H7!$D!G(*!<()6!2)!6>(!,+16!9(<+9(!K5*0;!%R=N&!2)!$IIN! 60!&RIF=!2)!$IINLR!6>(!):;H(*!05!k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a+620)! *(1G0)12H,(! 50*! ;+)+32)3!6>(!P(6>(*,+)91!C+2,A+7j1!2)5*+16*:<6:*(R!60!<0;;21120)!+!;+\0*!16:97!05! ,(.(,!<*0112)3!1+5(67#$N!T>(!16:97!50<:1(9!0)!6>(!:)9(*,72)3!<+:1(1!05!+<<29()61!+6! ,(.(,!<*0112)31!05!6>(!+:60;+62+,5!H+**2(*!>+,5!0G()!K@heQL!67G(!+)9!6>(!;(+1:*(1! )((9(9! 60! *(9:<(! 6>(! <>+)<(1! K2#(#! *21ZL! 05! +<<29()61! +6! 1:<>! <*0112)31#! @<<29()6! <+:1(1!(.+,:+6(9!2)<,:9(!6>01(!*(,+62)3!60!6>(!G17<>0,037!05!*0+9!:1(*1R!+1!A(,,!+1! 6>01(! 2)5,:()<(9! H7! (E:2G;()6! 9(123)! +)9! G(*50*;+)<(! +)9! H7! 6>(! G>712<+,! ().2*0);()6! 05! 6>(! ,(.(,! <*0112)31! 6>(;1(,.(1#! @;0)3! 06>(*! 211:(1! +99*(11(9! H7! 6>(!16:97!21!+)!+GG*0G*2+6(!;(6>090,037!50*!/016gQ()(526!@)+,7121!05!,(.(,!<*0112)3! 1+5(67!()>+)<(;()6!;(+1:*(1#!!!!! ! T>(! 16:97! A+1! H+1(9! 0)! +)! +)+,7121! 05! FR$D&! 2)<29()61! +6! +H0:6! $RJJJ! ,0<+620)1! 9:*2)3! 6>(! $&_7(+*! G(*209! 5*0;! $IND! 60! $II?#! @! *+)90;! 1+;G,(! 05! $JJ! <0,,2120)1!+6!@heQ!<*0112)31!A+1!6+Z()!5*0;!6>21!9+6+!2)!0*9(*!60!<0)16*:<6!+!M+:,6! T*((! @)+,7121! KMT@L#! T>(! MT@! >(,G1! 60! +11(11! 6>(! 5*(E:()<7R! G*0H+H2,267! +)9! <0)1(E:()<(1!05!<0,,2120)1!+6!@heQ!<*0112)31#!! ! T>(!;0*(!123)252<+)6!*(1:,61!05!6>21!+)+,7121!1:33(16!6>+6B! ! #$ I%!G(*!<()6!05!+,,!<0,,2120)1!+*(!<+:1(9!H7!6>(!;216+Z(1!05!*0+9!:1(*1f! ! #$ ?! G(*! <()6! 05! +,,! <0,,2120)1! 0<<:*! H(<+:1(! H+**2(*1! +*(! 0G()(9! (**0)(0:1,7! +)9! 6*+2)1! G(*;266(9! 60! G+11! (26>(*! H7! >:;+)! 0.(**29(! +<620)! KF! G(*! <()6L! 0*! +1! +! <0)1(E:()<(! 05! ;(<>+)2<+,! 0*! (,(<6*2<+,! 5+2,:*(!K$!G(*!<()6Lf! ! #$ %I!G(*!<()6!05!+,,!<0,,2120)1!*(1:,6!5*0;!*0+9!:1(*1!;+Z2)3!k9(,2H(*+6(! ;216+Z(1lR!2#(#!H7!6+Z2)3!+<620)1!2)!5:,,!+A+*()(11!05!6>(!*21Z1!2).0,.(9#! 8)<,:9(9! 2)! 6>(1(! +*(! +<<29()61! 2).0,.2)3! 1,+,0;! 0*! a23a+3! 9*2.2)3gA+,Z2)3! +*0:)9! <,01(9! H+**2(*1! K$?! G(*! <()6LR! +1! A(,,! +1! +<<29()61!2).0,.2)3!9(,2H(*+6(,7!6*72)3!60!<*011!+56(*!0)(!6*+2)!A>()!26!21! Z)0A)!6>+6!+!1(<0)9!6*+2)!21!+GG*0+<>2)3!K$F!G(*!<()6Lf! ! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! $?!T>(!H+**2(*!G*06(<6(9!<*0112)31!5+,,2)3!!A26>2)!6>(!k+:60;+62(*! 9211(<6(9!2)60!6>01(!!05!!6>(!5:,,!!H+**2(*!+)9!>+,5!H+**2(*!67G(#! $N!Improving Safety at Railway Crossings, Final Report on AHOB CrossingsR!C+2,A+7!4+5(67! Y(G+*6;()6R!C+2,)(9R!$III#!

?I! #$ D%!G(*!<()6!05!+,,!+<<29()61!+*(!<+:1(9!H7!k)0)_9(,2H(*+6(l!;216+Z(1R! (#3#! 6>*0:3>! .21:+,! ;21\:93(;()6! 0*! ;21<+,<:,+620)! K&J! G(*! <()6LR! 6>*0:3>! A*0)3! 0*! ,+6(! *(+<620)! K$J! G(*! <()6L! 0*! 6>*0:3>! *0+9! :1(*1! 52)92)3! 6>(;1(,.(1! +)9! 6>(2*! .(>2<,(1! 0)! 6>(! 6*+(2*! A2,,R! A>()!6*+GG(9!H7!06>(*!6*+5522<,(!5+2,:*(!K&%!G(*! <()6L#!e5!6>01(!+<<29()61!*(1:,62)3!5*0;!.21:+,!;21\:93(;()6R!;016!K$=! G(*! <()6L! A(*(! +66*2H:6(9! 60! 9216*+<620)! 0*! H,2)92)3R! <+:12)3! .(>2<,(! 9*2.(*1!)06!60!)062<(!<*0112)31!+)9!123)+,!2)92<+620)1f!+)9! ! #$ IJ!G(*!<()6!05!+,,!9*2.(*1!2).0,.(9!2)!<0,,2120)1!+6!,(.(,!<*0112)31!:1(! 6>01(! <*0112)31! *(3:,+*,7#! T>(! k5+;2,2+*267! H*((91! <0)6(;G6l! G>()0;()0)!0G(*+6(1!>(*(#! ! 86! A+1! 50:)9! 6>+6! 0)! +.(*+3(! ,(.(,! <*0112)3! +<<29()61! A>2<>! *(1:,6! 2)! 6*+2)! 9(*+2,;()61! 0<<:*! +H0:6! 0)<(! +! 7(+*#! c>2,(! 6>21! 21! <(*6+2),7! ;0*(! 5*(E:()6! 6>+)! 26! 1>0:,9!H(R!9:*2)3!6>(!G(*209!$IN$_$II?!9(*+2,;()61!50,,0A2)3!,(.(,!<*0112)3!<0,,2120)1!! *(1:,6(9!2)!0),7!0)(!9(+6>!K+!*+2,A+7!G+11()3(*LR!0)(!1(*20:1!2)\:*7!K+!6*+2)!9*2.(*L! +)9!;2)0*!2)\:*2(1!60!%N!G+11()3(*1#! ! T>(!C+2,)(9!16:97!*(<0;;()9(9!+!):;H(*!05!1G(<252(! 1+5(67! 05! ,(.(,! <*0112)31! 05! 6>(! @ehQ! 67G(#! T>(1(! ;(+1:*(1! A(*(! <,+11252(9! :)9(*!50:*!>(+92)31B! ! K2L! U,2;2)+6(!*21Z!H7!+99*(112)3!6>(!*006!<+:1(!05!+<<29()61f! ! K22L! S*(.()6! +<<29()61! H7! 2;G,(;()62)3! 6(<>)2<+,! 2;G*0.(;()61! K2)16+,,! 9(.2<(1!50*!9(6(<620)!05!.(>2<,(1!0H16*:<62)3!,(.(,!<*0112)31Lf! ! K222L! -2;26!6>(!number of accidents!6>*0:3>!H(66(*!()50*<(;()6!05!*:,(1!+)9! *(3:,+620)1! +)9! 2;G,(;()6+620)! 05! +! G:H,2)2<+,! +)9! <0**(<62.(! ;(+1:*(1! K(#3#! 2)16+,,+620)! 05! *(9!,23>6!<+;(*+1Lf!+)9!! ! K2.L! -2;26! +1! ;:<>! +1! G0112H,(! 6>(! damage resulting from accidents! 6>*0:3>! *(3:,+620)1R! +! G:H,2)2<+,! ;(+1:*(1! +2;(9! +6! 2;G*0.2)3! (;(*3()<7! *(1G0)1(! +)9! 9+;+3(! <0)6*0,#! ! T>(!16:97!*(G0*6!:*3(1!6>(!G*20*262a+620)!05!;(+1:*(1!2)!+<<0*9+)<(!A26>!6>01(! A>2<>B! eliminate <+:1(1R! prevent! +<<29()6! 0<<:**()<(1R! +)9! mitigate! 6>(! <0)1(E:()<(1!05!+<<29()61#!86!+,10!<,+11252(1!;(+1:*(1!2)!6(*;1!05!6>01(!*(,+6(9!60! 6>(!,(.(,!<*0112)3!261(,5!+)9!6>01(!*(,+6(9!60!G>712<+,!().2*0);()6!05!6>(!<*0112)3#! ! M*0;! +! ,216! 05! +,,! G0112H,(! 67G(1! 05! ;(+1:*(1R! 6>(! 16:97! 29()6252(9! +! ,216! 05! 1G(<2522<>!26!*(<0;;()9(9!50*!2;G,(;()6+620)!2)!0*9(*!60!<0;H+6!6>(! 9(6(*20*+62)3! 1+5(67! G(*50*;+)<(! 05! 6>(! @ehQ! 67G(! <*0112)31#! T>21! ,216! 05! 1G(<2521!+)9!<7<,2)3!6*+1!+)9!<7<,2)3!6*+61! A26>! H233(*! ,()1(1! 50*! >23>(*! ,23>6! 72(,9f! K.L! Y(<*(+1(! 0*! (,2;2)+6(! 6>(! kG>+)60;! (55(<6l! 2)! ,(.(,! <*0112)3! 2,,:;2)+620)f!

NJ! K.2L! 8)<*(+1(!6>(!,23>6!72(,9!05!5,+1>2)3!A+*)2)3!,23>61f! K.22L! W1(!H233(*!H+(!2)6()1267!05!H(+;!,23>61!0)!,0<0;062.(1f! K2VL! S*0.29(!A+*)2)31!05!6*+55261!A26>!5,+1>2)3!,23>61f! KV22L! 8)16+,,!0*!2;G*0.(!1G((9!>:;G1!+6!,(.(,!<*0112)3!+GG*0+<>(1f! KV222L! S*0.29(!A+*)2)3!123)1!+9.212)3!;060*216!05!G*(1()<(!05!1G((9!>:;G1f! KV2.L! S*0.29(! H+**2(*! 1(3*(3+620)! 05! *0+9! ,+)(1! (26>(*! 129(! 05! <*0112)31! 2)! 0*9(*!60!G*(.()6!1,+,0;2)3!K0*!k4l!;0.(1!+*0:)9!,0A(*(9!H+**2(*1Lf! KV.L! S*0.29(! ;(+)1! 05! 1(G+*+62)3! ;060*2a(9! +)9! 1,0A! 6*+5521!+)9!<7<,2)3!6*+!,:;2)(1<()6!;+*Z2)31f!+)9! KV.22L! S+2)6!:)2)6(**:G6(9!,2)(1!+,0)3!6>(!*0+9!H0*9(*1!50*!+!9216+)<(!05!)2)(! ;(6*(1!(26>(*!129(!05!<*0112)31#! ! @992620)+,!;(+1:*(1!*(<0;;()9(9!A(*(!6>(!<,01:*(!05!10;(!,(.(,!<*0112)31! +)9!<0).(*120)!05!@X8!<*0112)31!K,(.(,!<*0112)31!A26>!+:60;+6261!H:6!)0! H+**2(*1L!60!@heQ!K@:60;+62(! (<0)0;2(1(! ;(+1:*(1! A(*(! +11(11(9!H7!29()62572)3!5*0;!+!M+:,6!T*((!@)+,7121!6>01(!+<<29()6!<+:1(1!0)!A>2<>! (+<>!;(+1:*(!A+1!,2Z(,7!60!>+.(!+)!2;G+<6!+)9!6>()!(16+H,21>2)3!6>(!,2Z(,7!):;H(*!05! 2)\:*2(1!A>2<>!A0:,9!H(!+.029(9!+1!+!*(1:,6!05!+GG,72)3!6>(!;(+1:*(!K+)9!(,2;2)+62)3! 6>(!<+:1(L#!T>(1(!2)\:*2(1!A(*(!6>()!32.()!+)!(E:2.+,()6!.+,:(!2)!*(,+620)!60!,011!05! ,25(R!+1!50,,0A1B! ! #$ M+6+,!2)\:*2(1! ! v!$#J! #$ 4(*20:1!2)\:*2(1! v!J#D! #$ [2)0*!2)\:*2(1! ! v!J#$! ! T>(! ):;H(*! 05! (E:2.+,()6! 5+6+,262(1! 6>:1! <+,<:,+6(9! A+1! 6>()! .+,:(9! +6! 6>(! *+6(! +,,0A+H,(! 50*! *0+9! 6*+552(! *(1:,62)3! H()(5261! 05! 6>(1(! ;(+1:*(1!<0;G+*(9!A26>!6>(!<0161!05!2;G,(;()6+620)#!! ! @,,!05!6>(!*(<0;;()9(9!;(+1:*(1!A(*(!50:)9!60!>+.(!+!Q()(526g/016!C+620! 3*(+6(*!6>+)!0)(#!!!! ! ! 3.7 Level crossing experience of Japan

3.7.1 Level crossing evolution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

N$! ! !! 8)!$IF$R!+)!k@<6!60!S*0;06(!-(.(,!/*0112)3!8;G*0.(;()6l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e<60H(*! $I?JR! +! 9:;G! 6*:2)3! ,23>6! +)9! +:92H,(! A+*)2)31R! ()6(*(9! +! ,(.(,! <*0112)3! H(6A(()! 4+32)0)27+! +)9! h+)+1+Z2! 16+620)1! 0)! 6>(! 81(a+Z2! ,2)(! 05! 6>(! T0>H:! C+2,A+7! /0;G+)7! +)9! <0,,29(9! A26>! +)! (,(<6*221!<0,,2120)!*(1:,6(9!2)!6>(!9(*+2,;()6!05!6>(!6*+2)!,(+.2)3!D! G(*10)1!9(+9!+)9!&%=!2)\:*(9#!T>(!,(.(,!<*0112)3!A+1!(E:2GG(9!A26>!5,+1>2)3!,23>61! +)9!+)!+:92H,(!A+*)2)3!;(<>+)21;R!H:6!A+1!A26>0:6!G*06(<62.(!H+**2(*1#!! ! 400)! +56(*! 6>21! +<<29()6R! 6>(! S*2;(! [2)216(*j1! 9(G+*6;()6! <0).()(9! +! /0;;266((! 05! T*+552(! <0;;266((! 9(<29(9! 0)! ;+)7! <0:)6(*;(+1:*(1! 60! (,2;2)+6(! ,(.(,! <*0112)3! +<<29()61#! e)(! 05! 6>(1(! A+1! 60! 9(52)(! +<620)1! 60! H(! 6+Z()!! +3+2)16!9:;G!6*:0!0G(*+6(!6>(2*!.(>2<,(1!)(3,23()6,7!2)!0*9(*!60!;2)2;2a(! 9(,+71! +)9! 10! 5:,52,! 6>(2*! A0*Z! E:06+1#! e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k!@<6!60!G*0;06(!,(.(,!<*0112)3!2;G*0.(;()6l!+)9! 6>(! k0.(*+,,! <0:)6(*;(+1:*(! G,+)! 50*! G*(.()620)! 05! ,(.(,! <*0112)3! +<<29()61lR! A(*(! >23>,7!123)252<+)6!2)262+62.(1!+)9!+*3:+H,7!*(1:,6(9!2)!+!1:H16+)62+,,7!*(9:<(9!):;H(*! 05!,(.(,!<*0112)3!+<<29()61!2)!]+G+)#! ! 3.7.2 Current level crossing inventory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

N&! Table 3.4: Level crossings in Japan, by class

/,+11! $IFD! $I?J! $I?D! $INJ! $IND! $IIJ! $II%! $II=! $IID! $IIF! $II?! $IIN!

$16! FD=%! $JDD&! &$$II! &?&DJ! &ID=?! %JDF&! %JIFI! %JI=$! %JII=! %$J&%! %$JNJ! %JI&%! &)9! %&J! ?&! %?! &J! J! J! J! J! J! J! J! J!! %*9! $&FN$! $=D=D! FF&$! =D%=! %?NN! &=$J! &J=&! $I=$! $N$&! $?&=! $DII! $=IN! =6>! =$?F=! &?IF$! &J=D$! $%I=I! I&FN! FFN%! DN$I! DF=J! D=J=! D&%%! DJ%&! =IJD! T06+,! F$%JN! D%&%J! =N%JN! =D?D%! =&FJ%! %IFDD! %NN?J! %NDD&! %N&$J! %?INJ! %??$$! %?%&F! ! Source: Transportation Ministry, Japan.

70000

60000

50000

40000

30000

20000

10000

1965 1970 1975 1980 1985 1990 1993 1994 1995 1996 1997 1998

1st 2nd 3rd 4th total

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

N%! ! Table 3.5: Level crossing accidents and casualties, by class of crossing r(+*! /,+11! @<<29()61! @<! $J$! $#I%! %&! J#F$! DF! $#J?! T06+,! D&F! $#%N! $=&! J#%?! &$I! J#DN! $II?! $16! %D=! $#$=! N=! J#&?! $&F! J#=$! %*9! =%! &#FI! $%! J#N$! &J! $#&D! =6>! $J&! &#J%! &?! J#D=! %F! J#?&! T06+,! =II! $#%&! $&=! J#%%! $N&! J#=N! $IIN! $16! %FN! $#$I! $JF! J#%=! $J?! J#%D! %*9! &F! $#?=! I! J#FJ! N! J#D%! =6>! N%! $#FI! &%! J#=?! =?! J#IN! T06+,! =??! $#&N! $%N! J#%?! $F&! J#=%!

Source: Transportation Ministry, Japan. ! M*0;! 6>21! 6+H,(! 26! ;23>6! H(! <0)<,:9(9! 6>+6! %*9! <,+11! ,(.(,! <*0112)31! +*(! 6>(! ;016! 9+)3(*0:1! 2)! ]+G+)R! +1! ;(+1:*(9! H7! 6>(2*! +<<29()6! *+620! G(*! >:)9*(9! <*0112)31#! ! h0A(.(*R!;+7!26!+,10!H(!<0)<,:9(9!6>+6!$16!<,+11!,(.(,!<*0112)31!2)!]+G+)!+*(! 1+5(`!!T>(!9+6+!2)!T+H,(!%#D 1:33(16!6>+6!$16!<,+11!<*0112)31!+*(!0),7!1,23>6,7!1+5(*! 6>+)!=6>!<,+11!<*0112)31!A26>!+<<29()6!*+6201!K+<<29()61!G(*!>:)9*(9!<*0112)31L!0),7! %J!G(*!<()6!,0A(*!6>+)!6>+6!05!6>(!=6>!<,+11!<*0112)31#! ! T>(*(!21!6>(!G0112H2,267!05!;+Z2)3!,(.(,!<*0112)31!1+5(*!6>*0:3>!6>(!2)16+,,+620)! 05!obstruction detectors and warning devices#!Y+6+!50*!]C!U+16!/0#!H06>!H(50*(!+)9! +56(*! 6>(! 2)16+,,+620)! 05! ,(.(,! <*0112)3! 0H16*:<620)! 9(6(<60*1! 1>0A! 6>+6! 6>21! +<620)!! *(1:,6(9!2)!+!9*+;+62(!,(.(,!<*0112)3!+<<29()6!*+620!d!1((!M23:*(! %#$F#!

Figure 3.16: Effect on first class crossing accident rates of obstruction detector installation

1.2 1.06 1

0.8

0.6

0.4 0.23 0.2

0 Accidents/mill.train-km BEFORE installation Accidents/mill.train-km AFTER installation

! SourceB!]C!U+16!/0#! ! !

N=! h0A(.(*R!26!;:16!H(!)06(9!6>+6!6>21!2;G*0.(;()6!A+1!+<>2(.(9!6>*0:3>!6>(! 2)16+,,+620)! 05! <#0#9#j1! K<*0112)3! 0H16*:<620)! 9(6(<60*1L! +6! 0),7! 6>(! ;016! 9()1(,7! 6*+552+)! 0)(! 6>2*9! 05! +,,! 52*16! <,+11! <*0112)31!0)!6>(!]C!U+16!1716(;!d!1((!T+H,(!%#F# ! Table: 3.6 : Numbers of 1st class level crossings and crossing obstruction detectors (c.o.d.) on JR East system! ! $IN?! $INN! $INI! $IIJ! $II$! $II&! $II%! $II=! $II=! $IID! $IIF! $II?! $IIN! P0!05!! FR&F%! FR%F&! F=&=! FRDN%! FRFFJ! FR?&D! FR?=F! FR?=D! FR?&I! FR?&=! FRFN$! FRDND! FRDF?! $16!<,+11!-#/#! P0!05!<#0#9#!! &JJ! &%D! =&%! F=&! ?ID! $RJ?$! $RD&&! $RN?N! $RIIF! &R$%D! &R&?&! &R&?N! &R%J$! ! ! T>(! 16((G! *(9:<2)3! 6*()9! 2)! +<<29()6! 0<<:**()<(1! *(1:,62)3! 5*0;! <#0#9#! 2)16+,,+620)! +6! 52*16! <,+11! ,(.(,! <*0112)31! 0)! 6>(! ]C! U+16! 1716(;! 21! +GG+*()6! 5*0;! M23:*(!%#$?# ! ! Figure 3.17: Trend in accidents at 1st class level crossings on the JR East Co.system !

200 150 100 50

1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998

Accidents

! ! SourceB!!]C!U+16!/0#! ! ! c>2,(!6>(!9+6+!921G,+7(9!>(*(!+*(!50*!6>(!]C!U+16!1716(;!0),7R!;016!05!6>(! 06>(*!*+2,A+7!<0;G+)2(1!2)!]+G+)!>+.(!+,10!:)9(*6+Z()!6>(!2)16+,,+620)!05!<#0#9j1!2)! *(<()6!7(+*1!+)9!+1!+!*(1:,6!>+.(!+<>2(.(9!12;2,+*!1+5(67!2;G*0.(;()61#! ! !! 3.7.3 Level crossing safety performance in Japan

(i) Accidents

T>(! 1+5(67! G(*50*;+)<(! 05! 6>(! ]+G+)(1(! *+2,A+7! 1716(;1! >+1! 2;G*0.(9! 9*+;+62<+,,7!0.(*!6>(!N!7(+*!G(*209!H(6A(()!$IIJ!+)9!$IINR!+1!21!1>0A)!2)!T+H,(!%#? +)9!M23:*(!%#$N# Y:*2)3!6>21!G(*209!0.(*+,,!+<<29()61!*(9:<(9!H7!)(+*,7!%J!G(*!<()6R! H:6!,(.(,!<*0112)3!+<<29()61!were down by nearly 40 per cent#!!8)!$IINR!,(.(,!<*0112)3! +<<29()61!*(G*(1()6(9!+H0:6!>+,5!05!+,,!*+2,A+7!+<<29()61!2)!]+G+)R!1:33(162)3!+!)((9! 50*!+!<0)62):2)3!50<:1!0)!;(+1:*(1!60!(,2;2)+6(!,(.(,!<*0112)3!+<<29()61#! !

ND! Table 3.7: Railway Accidents and Level Crossing Accidents in Japan ! ! $I?D! $INJ! $IND! $IIJ!! $II$! $II&! $II%! $II=! $IID! $IIF! $II?! $IIN! C#@! %?I=! &&F%! $DI=! $%JN! $&=$! $$D=! $$NJ! $J?%! $J=F! $JJ%! IF=! I%I! -#@! $I$?! $&%%! I=%! ?D=! ?J=! F=$! FD%! D=J! DDN! D&F! =II! =??! C#@!!B!!C+2,A+7!@<<29()61!K06>(*!6>+)!-(.(,!/*0112)3!@<<29()61L!!!!-#@!!B!!-(.(,!/*0112)3!@<<29()61! ! ! Source: Transportation Ministry, Japan. ! !

Figure 3.18: Significance of Level Crossing Accidents in the Overall Safety of Railways, Japan

4000 3500 3000 2500 2000 1500 1000 500 0

1975 1980 1985 1990 1991 1992 1993 1994 1995 1996 1997 1998

Railway accidents L.C.accidents

Source: Transportation Ministry, Japan.

c>()!*(,+6(9!60!*+2,!6*+552+6!!6>(! 1+5(67! G(*50*;+)<(! 05! ,(.(,! <*0112)31! 2)! ]+G+)! 21! <0;G+*+H,(! A26>! 6>(! H(16! 05! 6>(! 1+5(67!G(*50*;(*1!2)!U:*0G(#!M0*!(V+;G,(R!2)!$IIN!]+G+)!+<>2(.(9!+!1+5(67!*+6(!05! J#%F!,(.(,!<*0112)3!+<<29()61!G(*!;2,,20)!6*+2)!Z2,0;(6*(1!+1!<0;G+*(9!A26>!6>(!4P/M! KM*+)<(L!A>2<>!2)!6>+6!7(+*!+<>2(.(9!J#%%!,(.(,!<*0112)3!+<<29()61!G(*!;2,,20)!6*+2)! Z2,0;(6*(1#!T>(!*(1:,61!50*!]+G+)!+*(!1>0A)!2)!M23:*(!%#$I#! ! Figure 3.19: Trend in level crossing accident rate (accidents per mill. train-km)

1.5 1.36

1 0.93 0.77 0.6 0.5 0.55 0.5 0.5 0.42 0.43 0.4 0.38 0.36

0 1975 1980 1985 1990 1991 1992 1993 1994 1995 1996 1997 1998

L.C.accidents per mill.train-kilometres

Source: Transportation Ministry, Japan.

NF! ! @)!+)+,7121!05!*+2,A+7!+<<29()61!H7!G*2;+*7!<+:1(!50*!$IIN!2)92<+6(1!6>+6!,(.(,! <*0112)3!+<<29()61!+<<0:)6!50*!H7!5+*!6>(!3*(+6(16!1>+*(!05!*+2,A+7!+<<29()61!2)!]+G+)! KT+H,(!%#NL#!!8)5*2)3(;()6!0)!6>(!*+2,A+7!21!;016,7!H7!G(9(16*2+)1R!A26>!$D?!9(+6>1!2)! $IIN#! !!! ! Table 3.8: Railway accidents in Japan 1998, by primary cause

/+:1(!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!@<<29()61!!!!!! !!!!!!!!!!!S(*!<()6! -(.(,!<*0112)3!+<<29()61!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!=?D!!!!!!!!!! DJ#?! 8)5*2)32)3!0)!C+2,A+7!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!&&&!!!!!!!!!! &%#F! eH16+<,(1!0)!C+2,A+7!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!$J$!!!!!!!!!! $J#?! C+2,A+7!46+55!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!&=!!!!!!!!!!! &#F! Q+9![+2)6()+)<(!05!C0,,2)3!460(*!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!$J&!!!!!!!!!! $J#N! T06+,!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!I=$!!!!!!!!!! $JJ#J! !! ! Source: Transportation Ministry, Japan. ! ! ! ! T>(!G*2;+*7!<+:1(!05!,(.(,!<*0112)3!+<<29()61!2)!]+G+)R!+<<0:)62)3!50*!F&!G(*! <()6! 05! +,,! ,(.(,! <*0112)3! +<<29()61R! 21! ;060*! .(>2<,(! 9*2.(*1! K50*! A>+6(.(*! *(+10)L! 6+Z2)3!6>(2*!.(>2<,(1!0.(*!,(.(,!<*0112)31!2)60!6>(!G+6>1!05!0)<0;2)3!6*+2)1#!T>(!3*(+6! ;+\0*267!05!6>(1(!+<<29()61!0<<:**(9!+6!M2*16!/,+11!-(.(,!/*0112)31R!+1!;+7!H(!1(()! 2)!T+H,(!%#I#!!!! ! ! Table 3.9: Level crossing accidents in Japan 1998, by primary cause

!/+:1(! /,+11(1!05!-#/#! !@<<29()61! S(*!<()6! /*0112)3!+6!1+;(!62;(!+1!6*+2)! !M2*16!/,+11! $J%! !!!=&#F! ! T>2*9!/,+11! $N! !!!!!!!!!%#N! ! M0:*6>!/,+11! ?=! !!!$D#D! ! T06+,! &ID! !!!F$#N! C0+9!.(>2<,(!160GG(9!0)!,(.(,!<*0112)3! !!!!NI! !!!$N#?! C0+9!.(>2<,(!2)5*2)3(9!,(.(,!<*0112)3!<,(+*+)<(!,2;26!! !!!!F%! !!!!!!!$%#&! e6>(*! !!!!%J! !!!F#%! T06+,! !!!=??! !!!$JJ#J! !!!!!!!!!!!!!!! !! Source: Transportation Ministry, Japan.

(ii) Fatalities and injuries

T>(!6*()9!2)!5+6+,262(1!+)9!2)\:*2(1!2)!,(.(,!<*0112)3!+<<29()61!*(,+62.(!60!6>01(! 2)! +,,! *+2,A+7! +<<29()61! 2)! ]+G+)! 21! 32.()! 2)! T+H,(! %#$J! +)9! 6>(! +<<0;G+)72)3! 92+3*+;#!

N?! ! Table 3.10: Number of fatalities and injuries in level crossing accidents in Japan !!!! r(+*! $I?D! $INJ! $IND! $IIJ! $II$! $II&! $II%! $II=! $IID! $IIF! $II?! $IIN! @,,!*+2,A+7! !!!!!!!! !!!! +<<29()61B! Fatalities !!I&N! !!D?=! !!=$F! !!=&%! !!=D$! !!=%J! !!%I&! !!%FF! !!%=%! !!%FJ! !!%&N! !!%=I! Injuries $RFFI! !!INI! $JD=!!! !!FJF! $=&%! !!NI%! !!?JI! !!=I&! !!=NI! !!===! !!F$I! !!%FD! -#/#! !!!!!!!! !!!! +<<29()61B! Fatalities !!=NF! !!&I=! !!&JF! !!&J&! !!$?J! !!$?%! !!$DI! !!$%F! !!$=%! !!$=&! !!$&=! !!$%N! Injuries !!I=I! !!D%=! !!=ID! !!%DD! !!D?D! !!%JJ! !!&&%! !!&%=! !!&??! !!&$I! !!$N$! !!$F&! ! Source: Transportation Ministry, Japan. ! !

1800

1600

1400

1200

1000

800

600

400

200

0 1975 1980 1985 1990 1991 1992 1993 1994 1995 1996 1997 1998

Fatalities-Total Injuries-Total Fatalities-L.C. Injuries- L.C.

! ! ! M+6+,262(1!+)9!2)\:*2(1!2)!,(.(,!<*0112)3!+<<29()61!<0;G*21(!+!16(+92,7!*(9:<2)3! G(*<()6+3(!05!5+6+,262(1!+)9!2)\:*2(1!2)!+,,!67G(1!05!*+2,A+7!+<<29()61!2)!]+G+)#!8)!$IINR! 6>(!1>+*(!05!,(.(,!<*0112)3!5+6+,262(1!+)9!2)\:*2(1!2)!6>(!0.(*+,,!):;H(*1!50*!+,,!*+2,A+7! +<<29()61!2)!]+G+)!A(*(!=J!G(*!<()6!+)9!==!G(*!<()6!*(1G(<62.(,7#! ! c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

NN! 92+3*+;#! T>(1(! 6*()91! 2)92<+6(! +! 16(+92,7! *(9:<2)3! *+6(! 05!<+1:+,67! 0<<:**()<(! G(*! ;2,,20)! 6*+2)_Z2,0;(6*(1#! T>(! ,(.(,! <*0112)3! 5+6+,267! *(<0*9! 50*! ]+G+)! <0;G+*(1! 5+.0:*+H,7!A26>!6>01(!50*!c(16(*)!U:*0G(+)!<0:)6*2(1R!A26>!+!,(.(,!<*0112)3!5+6+,267! *+6(!2)!$IIN!(E:2.+,()6!60!6>+6!05!'(*;+)7!+)9!,0A(*!6>+)!6>01(!05!Q(,32:;!+)9!6>(! P(6>(*,+)91#!T>(!,(.(,!<*0112)3!2)\:*7!*+6(!05!]+G+)!2)!6>(!1+;(!7(+*!A+1!,0A(*!6>+)! 6>01(!05!+,,!c(16(*)!U:*0G(+)!<0:)6*2(1R!(V<(G6!50*!M*+)<(#!! ! ! Table 3.11: Trend in level crossing fatality and injury rates (per mill. train-km)! ! r(+*! $IIJ! $II$! $II&! $II%! $II=! $IID! $IIF! $II?! $IIN! M+6+,262(1! J#$F! J#$%! J#$%! J#$&! J#$$! J#$$! J#$$! J#JI! J#$J! 8)\:*2(1! J#&N! J#=D! J#&%! J#$?! J#$N! J#&$! J#$?! J#$=! J#$&! ! Source: Transportation Ministry, Japan. !

0.5 0.4 0.3 0.2 0.1 0 1990 1991 1992 1993 1994 1995 1996 1997 1998

L.C.Fatalities/mill.train-km L.C.Injuries/mill.train-km

! ! ! 3.7.4 Level crossing evaluation methods in Japan ! 8)!]+G+)R!<0;H2)(9!*0+9g*+2,!6*+552(! H+121! 50*! 9(<292)3! 0)! 6>(! 67G(! 05! ,(.(,! <*0112)3! 1716(;! A>2<>! 1>0:,9! H(! 2)16+,,(9!+6!.+*20:1!,0<+620)1#!40;(!,(.(,!<*0112)31!2)!]+G+)!E:26(!1+6215+<60*2,7!<+**7! ;0*(!6>+)!=JJ!6*+2)1!+)9!DJRJJJ!*0+9!.(>2<,(1!G(*!9+7!K32.2)3!+!T[!2)92<+60*!05!;0*(! &J!;2,,20)LR!10!6>+6!9(<2120)!*:,(1!H+1(9!0)!,0A!T[!.+,:(1!>+.(!H(<0;(!10;(A>+6! 2**(,(.+)6!2)!]+G+)#! ! 8)!*(<()6!7(+*1R!;016!]+G+)(1(!*+2,A+71!>+.(!:1(9!+1!+!9(<2120)!<*26(*20)!50*! ,(.(,!<*0112)3!2;G*0.(;()6R!6>(!/,01(9!C0+9!T*+55221!2)92<+60*!21! 6>(! *(1:,6! 05! ;:,62G,72)3! +.(*+3(! ,(.(,! <*0112)3! <,01:*(! 62;(! G(*! 6*+2)! H7! 6>(! T[! 5+<60*#!T>:1!6>(!/CT!2)92<+60*!21!6>(!G*09:<6!05!6>(!*0+9!6*+552(!6*+2)!6*+552(!,(.(,!<*0112)3!<,01:*(!62;(#!@1!1:<>!26!*(G*(1()61!+!.(*7!<*:9(!;(+1:*(! 05! 6>(! (<0)0;2(! H,0+6!)06!+,,!05!6>(!*0+9!.(>2<,(1!G+112)3!6>*0:3>!+!<*0112)3! 2)!&=!>0:*1!+*(!+<6:+,,7!9(6+2)(9!+6!6>(!<*0112)3#!h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h0A(.(*R!6>(*(! +*(!;+)7!,(.(,!<*0112)31!A26>!/CT!.+,:(1!3*(+6(*!6>+)!$JRJJJ!+)9!2)9((9!6>(*(!+*(!

NI! 10;(!A26>!/CT!.+,:(1!3*(+6(*!6>+)!$JJRJJJ#!/0)1(E:()6,7R!10;(!]+G+)(1(!C+2,A+7! /0;G+)2(1!>+.(!)0A!1A26<>(9!60!)(A!2)92<+60*1#! ! e)(!05!6>(1(!21!]C!c(16!/0#R!A>2<>!>+1!9(.(,0G(9!A>+6!21!Z)0A)!+1!+!Level Crossing Danger Index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m$!A2,,!H(!1<0*(9!$$R!H:6!25!6>(!):;H(*!05!+<<29()61!G(*!7(+*!21!0)(!0*!,(11!6>+)!0)(R! m$! A2,,! H(! 1<0*(9! %#! ! 42;2,+*,7R! 25! 6>(*(! +*(! $J! ;(6*(1! 0*! ,(11! H(6A(()! 6>(! 52V(9! A+*)2)3!123)!+)9!6>(!6*+21!9216+)<(!21!3*(+6(*!6>+)!&J! ;(6*(1R! m&! A2,,! H(! 1<0*(9! %R! +)9! 10! 0)#! T>(! >23>(16! 1<0*(1! K+)9! 6>(*(50*(! A(23>62)31L!+*(!+1123)(9!60!+<<29()6!>2160*7#!! ! ! 3.7.5 Motor vehicle driver education ! @,,! ]+G+)(1(! *+2,A+7! <0;G+)2(1! )0A! (;G>+12a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f! ! K222L! Q*0+9<+162)3!;(11+3(1!*(,+6(9!60!,(.(,!<*0112)3!+<<29()6!G*(.()620)! 0.(*!6*+2)!S:H,2(,9!+,,!0.(*!]+G+)!2)!1G*2)3!+)9! +:6:;)!K2).0,.2)3!9216*2H:620)!05!,(+5,(61!+)9!06>(*!*(10:*<(!;+6(*2+,1! 0)!+<<29()6!G*(.()620)!+6!,(.(,!<*0112)31Lf! ! K.L! 46*()36>()2)3! 6>(! *(10,.(! 05! 6>(! G0,2<(! 60! 921<2G,2)(! 9*2.(*1! A>0! <0;;26! 6*+552(! .2<2)267! 05! ,(.(,! <*0112)31#! K]+G+)(1(! 6*+552+6!6>(7!*(E:2*(!9*2.(*1! 60! 160G! H(50*(! G*0<((92)3! +<*011! +)7! ,(.(,! <*0112)3R! (V<(G6! A>()! G(*;266(9!60!G*0<((9!H7!6>(!*(,(.+)6!123)+,!2)92<+620)1Lf! ! K.2L! S+*62<2G+620)! 2)! +)9! +11216+)<(! 50*! 1<>00,! +)9! <0;;:)267! (9:<+620)! G*03*+;;(1!<0.(*2)3!,(.(,!<*0112)3!1+5(67f!

IJ! ! K.22L! S*(1()6+620)! 05! ,(<6:*(1! +6! 1>0*6! <0:*1(1! 055(*(9! H7! 9*2.2)3! 1<>00,1! +)9!H7!9*2.(*!,2<()12)3!+:6>0*262(1!50*!6>(!*()(A+,!05!9*2.(*1j!,2<()1(1f! +)9! ! K.222L! Y(,2.(*7! 05! 1+5(67! S#C#! 60! 6>(! 6*:2*(!<0;G+)2(1!2)!(+<>!*(320)#! ! 3.7.6 Future level crossing safety policy

T>(!A>0,(1+,(!6(<>)2<+,!2;G*0.(;()6!05!,(.(,!<*0112)3!G*06(<620)!1716(;1!2)! ]+G+)! 2)! *(<()6! 7(+*1! >+1! )06! *(1:,6(9! 2)! +! <0;;()1:*+6(! 2;G*0.(;()6! 2)! 1+5(67! G(*50*;+)<(#! T>(! *(+,2a+620)! 6>+6! 1:<>! 6(<>)2<+,! 2;G*0.(;()61! A(*(! )06! *(+,2a2)3! 6>(2*!30+,1!2)!6(*;1!05!2;G*0.(9!1+5(67!,(9!]+G+)(1(!*+2,A+7!<0;G+)2(1!60!2)6*09:<(! ;0*(!*+92<+,!<0:)6(*;(+1:*(1R!2)<,:92)3!B! ! K2L! S*03*(112.(! +H0,2620)! 05! ,(.(,! <*0112)31! 6>*0:3>! 6>(2*! 2)6(3*+620)! A26>! 0.(*G+11(1! 0*! :)9(*G+11(1! H(6A(()! *+2,A+7! +)9! *0+9#! ! Y:*2)3! 6>(! G+16! 9(<+9(R! ]C! U+16! /0#! +H0,21>(9! %=N! ,(.(,! <*0112)31! +)9! 2)! +! 12)3,(!7(+*!K$IIFL!*(;0.(9!FN!,(.(,!<*0112)31!H7!6>21!;(+)1f! ! K22L! 8)16+,,+620)! 05! +:60;+62(!6*+(!*0+9f! ! K.L! 46*()36>()2)3!05!*(3:,+620)1!+3+2)16!:)1+5(!9*2.2)3!G*+<62<(1!+)9!*0+9! 6*+)1G0*6!0G(*+620)1R!(#3#!H+)1!0)!>(+.7!30091!.(>2<,(1!+6!1;+,,!,(.(,! <*0112)31f!+)9! ! K.2L! 8;G*0.(;()6!05!.212H2,267!+6!,(.(,!<*0112)31R!(#3#!6>*0:3>!6>(!+90G620)! 05! ,+*3(! 92+;(6(*! H+**2(*1R! 90:H,(! H+**2(*1R! 2,,:;2)+6(9! 123)! H+**2(*1R! (6<#! ! ! e)(! 05! 6>(! ;+\0*! G*0H,(;1! 5+<2)3! 6>(! ]+G+)(1(! *+2,A+7! <0;G+)2(1! 21! 6>+6! :)62,!)0A!,(.(,!<*0112)3!H+**2(*1!>+.(!)06!H(()!2)6(*,0!6>(!123)+,1!5+<2)3! 6*+2)1#!T>21!A+1!+<<(G6+H,(!A>2,(!*0+9!6*+5522,(! 6>(!6*+5522<,(1!A+1!*(<03)2a(9#!h0A(.(*R!)0A!6>+6! *0+9! 6*+552+1! *21()! 60! .+16! G*0G0*620)1! 6>*0:3>0:6! 6>(! <0:)6*7R! 6>(! *+2,A+7! <0;G+)2(1!)((9!H(66(*!1(,5_9(5()<(!+)9!6>21!;+7!A(,,!*(E:2*(!+!<>+)3(!2)!5:6:*(!60! +!G0,2<7!05!2)6(*,0

I$! CHAPTER 4: RECOMMENDED TECHNIQUES FOR RAILWAY LEVEL CROSSING SAFETY ASSESSMENT IN THE ASIA-PACIFIC REGION

4.1 General

Information provided by the countries participating in this study tends to suggest that, within the region, railway safety, and particularly safety at intersections between roads and railway lines, is perhaps not accorded the priority it deserves. Much of this has to do with the lack of a strong safety ethos within the communities of the region. Personal safety, as such, is not highly valued and hence safety consciousness is not generally something which is stressed in education programmes, either in schools or in the wider community.

Nevertheless, the high rates of economic growth experienced in the region within recent years, coupled with the growth in personal disposable incomes and the related growth in motor vehicle populations have stressed the need for attitudinal change as far as personal safety is concerned. There is little doubt that road accidents and their associated casualties have increased almost in parallel with the explosive growth in the vehicle populations of several countries of the region.

The evidence is that accidents at the intersections between road and rail contribute only a very small proportion of total road accidents in most countries of the region. However, it is a growing proportion as increasing road construction and road vehicle populations create greater opportunity for level crossing accidents to happen. Additionally, level crossing accidents tend to have casualties which are disproportionate with their number and frequency within the overall road safety picture. For example, where accidents involving collisions between two or more motor vehicles will usually generate limited casualties, collisions between road vehicles and trains at level crossings can, and often do, generate multiple casualties of both rail and road users, particularly when such collisions result in train derailments. Therefore, too much is at stake to allow level crossing accidents to grow unchecked.

Of paramount importance in any programme to improve level crossing safety is the need to have access to continuously updated information – to detailed level crossing inventories, to details of accident circumstances, causes and casualties as well as to details of the growth in the road and rail traffic passing level crossings. Such a programme will depend upon regular hazard assessments being made of individual level crossing locations, in order to allow calculation of accident risks and probabilities and to be able to establish valid priorities for safety enhancement measures at level crossings. Essentially this will require the establishment of a comprehensive Safety Management System, of which a Safety Management Information System will be a vital component. Thus the characteristics of a Safety Management Information System are addressed in this chapter, as is the application of Quantified Risk Analysis (QRA) and Cost-Benefit Analysis (CBA) techniques to level crossing safety management.

Finally, technical descriptions of the wide range of level crossing protection systems and technologies available, as well as guidelines for making technical assessments and selections from among this range are also outlined in this chapter.

93 4.2 Requirements of a Safety Management Information System

Missions undertaken by ESCAP in connection with this study have demonstrated that there is a critical need for railway managements to have ready access to information on the circumstances, causes and consequences of accidents, so that they may take effective action to eliminate (or more realistically) to minimize these accidents in future. While several railway systems of the region appear to have no shortage of such information, it is generally not collected and assembled systematically and it is mostly dispersed among the operating sub-divisions of the railway organizations, i.e. it is not available in a useable format to the senior railway managers who are responsible for operational safety.

The requirements of a comprehensive Safety Management Information System are outlined in this section. Although Level Crossing Safety cannot be distinguished from other aspects of Railway Safety in terms of the need for an effective information system, the requirements of such a system are illustrated with particular reference to Level Crossing Safety.

There are three crucial elements in any effective safety information system:

#$ A comprehensive and up-to-date inventory of potential hazards, or railway assets likely to pose a safety risk (for level crossings this would include a listing of the characteristics of all level crossings);

#$ A detailed report on all accidents, listing their location, circumstances, primary causes, secondary causes (or contributory factors), casualties and other consequences, as well as the post-accident management action taken; and

#$ A safety performance report issued at regular intervals and measuring the numbers of accidents, fatalities and injuries relative to a valid measure of railway traffic, such as the number of train-kilometres run on the rail system.

(a) Inventory of potential hazards

A complete listing of the location, physical characteristics, environment, traffic level and accident history of every level crossing on the railway system is necessary to permit analyses at regular intervals of the safety risks posed by the presence of potential hazards. To the extent possible, this listing should also cover unofficial level crossings in frequent use.

Table 4.1 provides an example of the elements of a comprehensive inventory.

94 Table 4.1: Level Crossing Inventory for: Rail System : (Name of System) Date last updated:

Item No. Item Description

1. Level Crossing Identification Number.

2. Location (geographical and km from system datum point).

3. Distance (m or km) from and name of nearest station.

4. Number of tracks crossing the road.

5. Number and width of road lanes crossing the tracks.

6. Category of road crossing the tracks (e.g. National/provincial highway Class I, II, III, local road, etc).

7. Type of surface of road crossing the tracks (e.g. Bitumen, asphaltic concrete, laterite, etc).

8. Condition of surface of road crossing the tracks – good, fair, poor.

9. Does the track approach the crossing on a curve? If so, indicate the radius of the curve.

10. Does the road approach the crossing on a curve? If so, indicate the radius of the curve.

11. Angle of intersection between tracks and road.

12. Nature of obstructions (if any) to road users’ view of tracks in each direction and on both sides of the crossing. Table 4.1: Level Crossing Inventory (continued)

Item No. Item Description

13. Nature of obstructions (if any) to road users’ view of level crossing signage and signals on both sides of the crossing.

14. Is the crossing manned or unmanned?

15. Crossing protection – is the crossing protected or unprotected by barriers?

16. If protected, please state type of protection from list below. Against the relevant type please also indicate whether the barriers are manually operated by mechanical or electrical mechanisms, or are automatically operated by the passage of trains. (a) Single full width lifting barriers both sides of crossing; (b) Single half width lifting barriers both sides of crossing; (c) Dual half width lifting barriers both sides of crossing; (d) Single full width swinging gates both sides of crossing; (e) Dual half width swinging gates both sides of the crossing; (f) Trolley gates both sides of crossing; and (g) Other (please specify).

17. If item 14 (b) is indicated, are the road lanes approaching the crossing separated by median strips or other forms of physical barriers dividing contra-flow road traffic?

18. Warning indications to road users. Is the crossing equipped with: (a) Fixed warning boards or signs; (b) Fixed red light indicators; (c) Flashing red light indicators; and (d) Warning light indicators on barriers. (If yes to a, b, or c, please also indicate distance from signs or lights to nearest rail) Table 4.1: Level Crossing Inventory (continued)

Item No. Item Description

19. Warning indications to train drivers. Please indicate from the list below the type of warning indication available to train drivers at this crossing. (For fixed signals, please also indicate distance (metres) from crossing and the type of warning indication given, e.g. steady white or red lights, etc): (a) Track circuited wayside signal; (b) Wayside signal operated by optic sensor (s); (c) Signal indication in driver’s cab; (d) Wayside signal relay interlocked with other cautionary signals on line; (e) Manually operated wayside signal; (f) Other (please specify); and (g) None.

20. Maximum daily traffic (road and rail) using this crossing. (a) Rail - maximum number of passenger trains per day - maximum number of freight trains per day - typical number of passengers per passenger train (b) Road - maximum number of road vehicles per day (if possible broken down by major type (e.g. small truck, large truck, small bus, large bus, car, motorcycle, etc).

21. Accident history. Please provide details of date, circumstances, casualty and property damage details of accidents at this level crossing.

22. Details and dates of any modifications to the equipment of this crossing. Please indicate authority under which these modifications were made.

23. Hazard risk rating. Please assign score of between 1 and 10, with 1 indicating high (unacceptable) risk and 10 negligible risk. Wherever possible, these ratings should be backed up with Fault Tree or probability analysis of recent accidents. It is essential that level crossing inventory information should be updated at frequent intervals. While it is not practical to specify rigidly the length of these intervals, updating should occur as soon as there is a change in the status of each crossing. For example, if there is an accident at a crossing, if there is a significant change in the levels of traffic using a crossing, or if the physical conditions or equipment at a crossing have been modified in any significant way, the inventory record for that crossing should be amended without delay. In addition, there should be a complete review of all inventory data at least once a year.

Continuous updating and dissemination of level crossing inventory records is only possible if the records are centrally maintained on computer files. A stock standard PC oriented database software package, such as Microsoft Access, is quite adequate for this purpose. Use of a database software package for maintenance of level crossing inventory records will also permit summary reports to be produced at regular intervals, either at a system-wide or a sub-divisional level. For example, a frequency distribution, by type of equipment installed or by combined rail and road traffic volume, could be generated simply and easily by such a database package.

The format of inventory records could be as shown in Table 4.1, but this table was presented only as an example of the desirable elements of a level crossing inventory and can no doubt be improved upon to suit the specific requirements of individual railway systems.

(b) Detailed accident reports

Railway managements with responsibility for safety must have access to reports containing sufficient information on the circumstances, causes, contributory factors and consequences of level crossing accidents in order to be able to take effective action to minimize such accident occurrences in future. In some countries of the region, though certainly not in a majority of countries, it is established procedure for the police, or railway inspection staff, or both, to prepare a detailed accident report immediately after each significant accident occurrence. Such reports may or may not contain sufficient information to assist the development of effective countermeasures and policy in relation to level crossing safety. It is vital therefore that railway safety managers have routine access to accident reports which will contribute to the effectiveness of their management role and hence to a reduction in railway accidents and their associated casualties.

A key requirement of accident reports is that they should satisfy two needs – they must be capable of assisting prompt and effective management action and they must provide an adequate basis for practical analysis of accident occurrences and causation factors. Recently Railned, the railway infrastructure management authority of the Netherlands, commissioned a study of accident causation at Automatic Half Barrier Crossings in the Netherlands.19 The availability of detailed accident reports covering 6,152 level crossing accidents at 1,000 locations over a period of 12 years (1985-1997) enabled the RailNed researchers to draw valid conclusions about the relationship between accident causation and road user characteristics and behaviour patterns.

19 Improving Safety at Railway Crossings, Final Report on AHOB Crossings, Railway Safety Department, Railned, 1999.

98 Table 4.2 provides an example of a possible format for a Detailed Level Crossing Accident Report. As is the case with Level Crossing Inventory data, these reports can be generated effectively by database software packages such as Microsoft Access, which will also facilitate the assembly of cross-sectional and time series data for all or a subset of level crossings within the railway system.

Table 4.2: Detailed level crossing accident report

Item No. Accident details

1. Date and time of occurrence.

2. Location (geographical and km from system datum point).

3. Physical conditions at time of accident (e.g. daylight/after dark , clear skies or overcast, dry or wet, visibility conditions).

4. Circumstances. Describe event sequence, such as: Road vehicle (specify type and licence number) driven by (name and address of driver) and carrying one other occupant entered level crossing after warning lights and bells had activated and collided with train number xxx (provide full description of train, e.g. 3.45 pm down passenger Station A to Station B), comprising (number and type of locomotives and number and type of passenger cars). Train driver applied full braking on sighting the vehicle when about y metres from the crossing, then exited the cab. Upon impact, the locomotive and the first three carriages were derailed and the wreckage of the road vehicle was dragged along the track for y metres before coming to rest on the down side of the crossing.

5. Speeds. Estimated train speed prior to impact: x km/hour; Regulation speed through crossing: x km/hour; Estimated speed of motor vehicle prior to impact: x km/hour. Any evidence that the road vehicle driver attempted to slow down or apply brakes before impact?

6. Operation of barriers, audible and visual warning equipment. (if relevant) If this equipment is installed, was it functioning normally at time of accident?

7. Train driver profile. Sex: ; Age: ; Number of years in present position: ; Record: e.g. details of training and attainment of required proficiency standards, previous rail accidents, details of cautions or fines; Evidence of impairment by alcohol or drugs at time of accident? General state of health? . 8. Road vehicle driver profile. Sex: ; Age: ; Local or non-local resident?: ; Previous convictions for traffic offences? Evidence of impairment by alcohol or drugs at time of accident? General state of health? .

9. Casualties. Fatalities at scene: 2 occupants of road vehicle (both male, aged x and y years); 3 train passengers. Subsequent* fatalities: 2 train passengers. Serious injuries (requiring hospitalisation for an extended period): 10 train passengers and one train driver. Minor injuries (requiring paramedic or outpatient treatment): 15 train passengers. Likely compensation payments to injured train passengers and to relatives of train passengers killed: (amount specified in local currency). Likely compensation payment to injured railway personnel: (amount specified in local currency).

* Note a “fatality” may be recorded as such if a person who sustains serious injuries in the accident dies within one year of the accident occurrence.

10. Railway Equipment and Property Damage. Cost of rectification works (lifting and repair of locomotive(s) and carriages; track repairs; and repairs to level crossing and signalling equipment): amount specified in local currency. Cost of any related damage to non-railway property: amount specified in local currency.

11. Direct and consequential delays to operations. Indicate: (a) total elapsed time between suspension of service on the line and resumption of service following rectification works; (b) total compounding delay to all schedules resulting from service interruption due to this accident; and (c) estimation of related delay cost (amount specified in local currency).

12. Established primary cause(s) of accident. Indicate only those factors established by a railway board of inquiry or other official investigating authority as primary causes of this accident. e.g. road vehicle driver ignored visual and audible warning indications and entered the crossing into the path of an oncoming train.

13. Established secondary cause(s) of accident. Indicate only those factors established by a railway board of inquiry or other official investigating authority to have contributed to the accident occurrence. e.g. the roadway crossing the tracks was wet at the time of the accident, creating slippery driving conditions and in combination with the poor state of the road vehicle’s tyres causing wheel-slide after application of the vehicle’s brakes.

14. Corrective action taken or to be taken following this accident. Provide details of any action taken or considered necessary in order to minimize the probability of accidents occurring at this crossing in future. 99 (b) Safety Performance Report

A measure of the effectiveness of level crossing safety enhancement actions in reducing the frequency and associated casualties of level crossing accidents may be provided by time series analysis of accident and casualty data. This may be done in two, or a combination of two, ways: either accident and casualty numbers are assessed over a number of years and a statistical trend established; or these numbers are related to some relevant measure of risk exposure (such as train-km) and a statistical trend of the dividend of the two series is established, or both. Examples of these two approaches are provided in Chapters 2 and 3 of this report, wherein the trend in level crossing accidents and number of casualties is assessed for selected railway systems of this and other regions. Safety performance trends may be presented in Safety Performance Reports to be issued at regular and frequent intervals.

A safety performance report may be generated for an entire railway system, or for any sub-division of this system. By way of comparison, it is possible to generate reports focusing on the relative level crossing safety performance of any given number of railway systems. However, if comparative reports of the latter type are to be generated, care should be taken that: (a) there is consistency in the accident and casualty measures used (e.g. are only “serious”, not minor, injuries reported in each case, and what does the term “accident” comprehend for each of the railway systems being compared?); and (b) the comparative analysis clearly identifies both the similarities and differences of each railway system for which safety data are being compared.

Comparative analyses of level crossing safety performance across different railway systems or across different sub-divisions within the same system are likely to be somewhat meaningless if they are based only on the trend in the absolute numbers of accidents, fatalities and injuries. Even if they are related to system route length, or to the number of level crossings on a system, they will not provide a valid basis for comparison since different railway systems or subdivisions vary widely in terms of their traffic density and composition.

Railway traffic density in fact provides a useful measure of the exposure of the railway to the risk of collision with road vehicles at level crossings, because, for a given number of crossings on a system, this risk will increase in direct proportion both to the level of usage of these crossings by rail traffic and to the level of usage by road traffic. Since it is usually not possible to obtain a satisfactory measurement of the latter, the level of railway traffic, as represented by the number of train-kilometres provides an indicator of traffic growth which can affect the probability of accidents at level crossings.

It is common practice to compare level crossing accident occurrences and related fatality and injury numbers with train kilometres by expressing them in terms of a rate per million train kilometres. However, it must be remembered that train- kilometres is not a homogeneous measure of risk exposure, since passenger trains will generally expose many more persons to level crossing accident risk than freight trains. Nevertheless train-km is a basic operating statistic for most railways and is generally available separately for passenger and freight trains. A further refinement of safety performance analysis might therefore be to calculate accident and casualty rates on the basis of both measures.

100 4.3 Relevance and application of Quantified Risk Analysis to level crossing safety management

Capital shortages typically threaten the capacity of most railway systems of the region to provide more than just a very basic level of protection against road/rail collisions at level crossings. Given the stringency of budget restrictions, it becomes essential to establish priorities for level crossing improvement activity. Level crossings are certainly not homogeneous in terms of accident risk probabilities. Some have a much greater propensity for accidents than others.

Quantified Risk Analysis (QRA) provides a suitable basis for establishing level crossing improvement priorities. This it does by allowing a ranking of level crossings in terms of their accident risk probability. Those crossings with high accident probabilities would normally qualify for funding allocations (subject to satisfactory cost/benefit results), while those with low accident probabilities would be assigned a low priority for improvement funding. QRA results should be linked to the Level Crossing Inventory Recording System which provides for the reporting of hazard probabilities against each level crossing (see Table 4.1, item 23).

Factors influencing the probability of accident occurrence at level crossings include:

#$ Rail traffic density (measured in terms of the maximum number of trains passing the crossing within a 24 hour period);

#$ Road traffic density (measured in terms of the maximum number of motor vehicles of all types passing the crossing within a 24 hour period);

#$ Presence of physical obstructions restricting the visibility of the track, warning signs or signals to road users;

#$ An absence of full width barrier protection at level crossings;

#$ An absence of flashing lights and audible warning devices at level crossings;

#$ Poor road surface condition at level crossings (leading to the grounding of low slung road vehicles); and

#$ Poor alignment and elevation of the road crossing the track (the road may cross the track at an oblique angle or may approach the crossing on a steeply rising grade).

It is strongly recommended that accident probabilities should be calculated for all official level crossings on the railway system (and possibly for the more critical of the unofficial crossings) and that these calculations should be updated as soon as there are changes to any of the factors listed above.

In addition to accident probabilities, it would also be highly desirable to calculate the probability of multiple fatalities and injuries resulting from accidents at individual crossings. The probability of such outcomes is influenced by all of the above factors and also by the level of usage of crossings by crowded road and rail

101 passenger vehicles. The latter may be difficult to calculate in the absence of adequate information, but may be substituted by Fault Tree Analysis (FTA) and Event Tree Analysis (ETA). The principles governing the use of these two concepts and the benefits they offer are discussed in the following sections.

(a) Fault Tree Analysis

Fault Tree Analysis examines the logical relationship between the circumstances, equipment failures and human errors which must exist for the main (or top) event to occur. In the example shown in Figure 4.1, the top event is a collision between a train and a road vehicle at a level crossing. The circumstances are the simultaneous arrival of the train and the road vehicle at the level crossing. The human error is the failure of the motorist to see the train and to continue onto the crossing. No equipment failure is indicated in this example, but if such were to occur it would constitute a fifth event. The purpose of FTA is to assist the calculation of frequency of an accident of a given level of severity when detailed data do not exist.

Figure 4.1: Application of Fault Tree Analysis Techniques

Potential Conflict Between Train and Road Vehicle

TOP 1

Road vehicle Train approaches attempts to pass level crossing through level crossing

EVENT 2 GATES

Road vehicle at level Road vehicle crossing at same user fails to see time as train oncoming train

EVENT 3 EVENT 4

102 For example, if only the daily number of trains and the daily number of road vehicles passing through a crossing is known, the probable frequency of conflicts between the two at that location may be calculated. For a crossing which carries 6,000 road vehicles and 70 trains per day, the probable frequency of conflict between road and rail movements at that crossing is 6,000/420,000 (70 x 6000), or 1.4 in 100 – a very high frequency.

The presence of full width protective barriers and integrated warning signals at that crossing will, all other factors being equal, reduce the probable frequency of conflict to zero, but of course other factors are rarely, if ever, equal. Equipment failure or human error in particular will intervene in this case to increase the probable frequency of conflict to some point between zero and 1.4 in 100. In Figure 4.1, human error is represented by Event 4, “Road vehicle user fails to see on-coming train”.

If data from accident reports can be used to indicate the frequency of such occurrences at a particular crossing the probability of occurrence can be calculated as the ratio between the number of such occurrences in a year and the annual traffic moment (daily number of trains x daily number of road vehicles x 365 days) for that particular crossing. For example, if from a sample of accident reports for a particular crossing carrying 70 trains and 6,000 motor vehicles per day, it is established that on average 10 collisions per year are caused by motorists failing to observe warning signals then the probability of such accidents occurring at the specified crossing (Prc) is given by the following equation:

Prc = 10/(420,000 x 365) = 1 in 15.3 million

In this case the very low probability or risk of collision due to failure of motorists to observe signals results from the low frequency of such accidents in relation to the volume of road and rail traffic using the crossing. Similar calculations may be done in order to estimate the probability of collisions at the specified crossing being caused by other factors, such as the failure of signalling or barrier equipment, human error on the part of railway employees etc.

Subject to data availability, the probability of collisions involving particular types of road vehicles, such as buses, may also be calculated for particular crossings, as may the probability of fatalities and injuries resulting from such collisions. The difficulty is that most often the safety databases maintained by the railways of the region are incapable of providing this level of detail.

FTA helps to identify the chain of events leading up to the top event (i.e. a collision between a train and a road vehicle) and for which indicative data must be obtained in order to calculate the frequency or probability of accident occurrence. If the necessary data are not available then estimates of the frequency of the identified events will have to be substituted in order to produce the final probability calculation.

(b) Event Tree Analysis

Event Tree Analysis (ETA) is used where there is a more complex relationship between the consequences of an event and its circumstances and/or location. In particular it shows how an initiating event may lead to a number of different outcomes depending on such factors as the geographic location of the event, successful implementation of the various human emergency response activities, the types of road vehicles involved (in the case of level crossing accidents) and the performance of the relevant protective safety systems. Figure 4.2 illustrates

103 Figure 4.2 : Application of Event Tree Analysis Techniques

Conflict Train driver Train driver Road Train speed Size of Consequences Frequency between applies stops train vehicle on impact road train and emergency before clears with road vehicle road braking crossing crossing Potential vehicle before vehicle (1) collision (1) LGV, Light Goods Vehicle; HGV, Heavy Goods Vehicle

Yes Collision avoided

Car Low speed collision Withcar

Low Light Goods Low speed collision Yes WithLGV

No Heavy Goods Low speed collision No With HGV

Car Med. speedcollision Withcar

Medium Light Goods Med. speed collision LGV

Heavy Goods Med. speed collision WithHGV

Yes Collision avoided

Car Low speed collision Withcar Low Light Goods Low speed colloision WithLGV Heavy Goods Low speed collision WithHGV

Car Med. speed collision NNo o with car No Medium Light Goods Med. speed collision With LGV Heavy Goods Med. speed collision With HGV

Car High speed collision With car High Light Goods High speed collision With LGV Heavy Goods High speed collision WithHGV

104 the construction of an event tree. This example was excerpted from “Managing Safety Through Identifying, Assessing, Mitigating and Monitoring Risk”, a paper presented by Andrew J Smith, Managing Director, International Risk Management Services at the “Safety on European Railways” Conference held in London on 4 December 1997.

As can be observed in Figure 4.2 an event tree is constructed by setting out each identified factor in chronological order and then joining up all possible combinations of factors to produce a number of possible end events. Probabilities may then be assigned to each branch of the event tree in order to calculate the final frequency of each outcome. The frequency of occurrence of each hazardous outcome is then the product of the frequency of occurrence of the initiating event and the probability that the event develops to that particular outcome. In the example provided in Figure 4.2 the final outcome is a collision between a train and a road vehicle at a level crossing and its severity is determined by: avoiding action taken by the train driver and/or by the motorist; the speed of the train on impact with the road vehicle; and the type and size of the road vehicle. The probability that each type of intermediate factor or event will apply may be calculated, but calculation of these probabilities and hence of the probability of the final outcome will depend on the availability of data from actual experience at the particular level crossing being analysed.

ETA provides guidance in more complex cases as to the type and scope of information which is necessary as a basis for calculating accident probabilities at specified level crossings. These probabilities will in turn indicate priorities for level crossing safety enhancement measures.

4.4 Cost-Benefit Evaluation of level crossing safety management measures

Shortages of capital funds for railway development in the region have made it essential that all capital expenditure proposals are prioritised using acceptable methods of evaluation. This requirement applies as much to safety enhancement as it does to other types of expenditure proposals. However, in the case of safety enhancement, the evaluation process has two main elements:

(i) First, quantified risk analysis (QRA) techniques are applied in order to indicate which of a railway system safety enhancement measures should be accorded high priority for implementation, purely on the basis of their risk-minimizing potential. This procedure was described in detail in the preceding section; and

(ii) Second, those projects which pass the QRA screening process are then subjected to Cost-Benefit Analysis (CBA) in order to establish whether they will produce an acceptable rate of return for the money invested in them.

Level crossing safety enhancement projects typically have two types of benefits. The first is clearly that of minimizing, if not eliminating, collisions between trains and motor vehicles at level crossings and in the process minimizing, if not eliminating, the deaths, injuries and human suffering associated with these collisions. The second is a secondary benefit – that of minimizing the delays to both rail and

105 road traffic at level crossings as a result of imposed speed restrictions on rail operations and of excessive barrier closure times against motor traffic.

Conceivably, there are three situations in which cost-benefit appraisal of level crossing safety enhancement projects will be required. These are: cases in which a value must be assigned to the benefits of alternative level crossing protection systems in terms of saving human life and minimizing human injuries; cases in which the delay reduction benefits offered by alternative level crossing protection systems must be assessed; and cases in which a comparative cost assessment of alternative methods of safety enforcement at level crossings is to be carried out. Each of these is considered in the following sub-sections.

4.4.1 Valuing human life

The concept of having to assign a value to human life in order to justify expenditures on life-saving projects may be distasteful to some railway safety managers. Yet, this is precisely what is being demanded of them, as safety projects increasingly fall within the ambit of the capital expenditure justification processes of the region’s railways.

The difficulty with the application of this approach in Asia is that the values notionally placed on human life have been low in relation to the costs of life-saving measures. Historically, the failure of some railway systems in the region to commit expenditures to the elimination of unofficial level crossings and to the adequate protection of official level crossings has provided implicit evidence of the generally low valuation of human life throughout the region.

As has been demonstrated in the preceding section, it is possible through the application of Quantified Risk Analysis to historical data to establish the probabilities of fatalities and serious injuries in level crossing accidents, with and without improvement of level crossing protection. These probabilities will provide an indication of the life-saving potential of various safety enhancement measures, such as the installation of full width protective barriers at crossings which formerly had no protection.

For example, if it is established that there is a probability that six fatalities per year will occur at a given crossing, currently without any form of protection, but that this probability will reduce to only one fatality per year after installation of full width protective barriers, then it might be concluded that this initiative has the potential to save 5 lives per year20. In the case of several railway systems of the region, the life- saving potential of protective barrier installation at level crossings is very high. Notable examples are provided by countries such as Viet Nam and Thailand, which experience a high frequency of level crossing fatalities, mostly at unofficial level crossings.

If it is possible through risk assessment to establish the life-saving potential of a barrier installation project, then it is reasonable to attach some value to this benefit against which may be offset the cost of undertaking the safety improvement. If the valued life-saving benefit exceeds the cost of the safety initiative, then the latter will normally be implemented.

20 The probability of train/road vehicle collisions, and hence of fatalities, at a given level crossing will be close to zero, but normally some allowance will be made for the probability of malfunction due to equipment failure or human error.

106 In Chapter 3 the approach adopted in the United Kingdom for fatality valuation was described at length. The two main approaches used are the “gross output” and “willingness-to-pay” approaches. Of these two approaches only the gross output approach would seem to be capable of practical application in Asia. This is because the wide spread of incomes in Asian countries would tend to make it difficult to obtain a representative sample indication of the community’s valuation of human life, as would be required in the “willingness-to-pay” case.

Application of the gross output approach to valuing fatality prevention in Cost- Benefit Analysis involves the following process steps:

(i) Obtain the current gross domestic product per capita estimate for the country;

(ii) Estimate the remaining working life of a “typical” accident victim;

(iii) Calculate the present annual value of the foregone future income stream of a “typical” accident victim – this is the product of (i) and (ii), discounted back to the present;

(iv) Calculate the present annual value of the proposed investment in the project and its associated operating costs21; and

(v) Calculate the ratio between (iii) and (iv) – effectively the Benefit/Cost ratio for the project.

Data obtained for India illustrate the application of the value of fatality prevention approach to a Cost-Benefit Analysis of a Level Crossing Barrier Installation, as shown in Table 4.3.

Table 4.3: Example of Cost-Benefit Analysis of level crossing barrier installation based on value of fatality prevention

Item Description Rs. mill. US$

Cost of manual barrier installation

(i) Capital cost - lifting barrier with flashing light and block signal 1.6984 38,600 (ii) Capital cost net of taxes and government charges 34,740 (iii) Present Annual Value of (ii)[ 15 year life; 12% discount rate] 5,101 (iv) Annual staffing cost 0.25 5,682 (v) Annual staffing cost net of government taxes and charges 5,511 (vi) Annual maintenance cost net of government taxes and charges 551 (vii) Total, annual economic cost (items (iii) + (v) + (vi) 11,163

Benefit of manual barrier installation

(viii) Potential fatalities avoided (number per year) 6 (ix) Per capita GDP (US$) 476 (x) Average remaining working life per victim (years) 24 (xi) Foregone income: (ix) x (x) x (xi) in US$ 68,544 (xii) Present Annual Value of foregone income (xi)[24 years; 12% discount] 8,805 (xiii) Annual benefit 8,805

(xiv) Benefit/Cost Ratio 0.79

Sources: (1) Indian Railways - cost of barrier installation and maintenance. (2) Economist Intelligence Unit, Country Report for India 1999-2000 – GDP per capita data for India.

21 The Present Annual Value (PAV) of an investment is computed as an annuity and includes both an allowance for depreciation and a return on the investment. Thus the PAV is the annual amount which must be received in order to cover both the replacement of the asset and a return on investment in the asset.

107 In this example, it is assumed that one prevented fatality can be valued in terms of the income which would have been foregone if that person had died in a level crossing accident at an unprotected level crossing. It is further assumed that installation of manual barriers at that crossing has the potential to save six lives per year.

It should be noted that in this case the Cost-Benefit Analysis represents an economic, rather than a financial, evaluation in that the cost of barrier installation is the resource cost borne by the community (i.e. it is net of government taxes and charges) and the benefit is the loss of income to the community which would be prevented as a consequence of the barrier installation project. The latter is most appropriately represented by the per capita Gross Domestic Product for the country in which the assessment is being made. A financial evaluation would be inappropriate in this case as the principal benefit, avoided loss of future income, would be a benefit realized not by the railway but rather by the community at large. Basically, the railway undertakes an investment in barrier protection at a level crossing in order to prevent loss of life and to safeguard the future income of the community.

In the example given in Table 4.3, the economic benefit generated by the barrier installation project covers only 80 per cent of its economic cost, indicating that at the given level of fatality prevention (6 deaths per year) the project is unlikely to be justified in economic terms. In fact, a breakeven point (at which the projects costs and benefits are equated) would be reached at 8 prevented deaths per year.

A similar process may be repeated in order to calculate the benefit resulting from avoided injuries, except that injuries should be valued by sampling data from any relevant source, including railway accident reports, insurance claims, or police reports.

4.4.2 Assessing the delay reduction benefits of alternative level crossing protection systems

While the safety of railway passengers and of road users must be a paramount issue in the appraisal and choice of a suitable and cost effective level crossing protection system, some consideration must also be given to the operational efficiency of the system. In this context, “operational efficiency” means the capability of keeping delays to both rail and road traffic to the minimum consistent with safe operation of level crossings.

Field inspections undertaken during the course of ESCAP missions to India and Viet Nam in connection with this study revealed that delays to motor vehicle traffic can be extensive at manned level crossings. If these delays could be cut to a minimum perhaps as a result of installing electrically actuated crossing barriers, it is likely that significant economic benefits in the form of travel timesavings would accrue to road users. Further, if warning signals facing train drivers could be installed at manned level crossings, the maximum permissible speeds of trains through these crossings might also increase with the result that the railway would realize financial savings in the form of reduced running times, a reduced requirement of motive power and rolling stock, and an associated reduction in operating costs, while there would be economic benefits to rail passengers in the form of reduced travel times.

Barriers which are operated manually tend to be closed for longer periods than barriers which may be remotely controlled by crossing staff using electrical

108 actuation systems, simply because the physical act of closing barriers will require more time than if the barriers can be activated remotely by mechanical or electrical means.

Typically, if barriers remain closed for excessive periods on crossings carrying a high volume of road and rail traffic, the build-up of road traffic will exceed the capacity of the crossing to safely discharge this build-up before the next train arrival at the crossing. Road traffic build-up in this situation obeys the rules of Queuing Theory: the longer the barrier closure, the greater the build-up and the slower the passage of motor vehicles over the crossing once the barriers have been raised.

An inspection of level crossings in the vicinity of Agra during the ESCAP mission to India in October 1999 provided ample evidence of difficulties encountered with traffic build-up when crossing closures are excessive. At one crossing within the Agra city limits, a Class A level crossing protected with double half boom barriers on both sides of the crossing was closed for 8 minutes awaiting the passage of a fast electric passenger train on the double-tracked Mathura-Agra-Bhopal mainline. This train was followed by another in the opposite direction about 10 minutes later, but it took 2-3 minutes to clear the crossing of traffic which had built up while the barriers were closed awaiting passage of the first train. Clearly, excessive crossing closure times will severely limit the train carrying capacity of a railway line if the road traffic using the crossings on the line exceeds a certain critical level. The Indian Railways has specified a daily TM (traffic moment) level of 100,000 at which grade separation of crossings would be justified, but budget restrictions have prevented this work being done except for a limited number of railway crossings of the national highway system.

For the purposes of this analysis, IR costs have been used to assess the relative costs and benefits of grade separation. The same approach can be used for the assessment of more modest improvements to level crossing warning and protection systems. There are two types of benefits resulting from grade separation of level crossings: financial benefits accruing to the railway in the form of increased line capacity and reduced operating costs and economic benefits accruing to individuals, i.e. railway passengers and road users in the form of travel time savings.

Calculation of financial benefit of reduced delay at level crossings

The case described above has been used for the purpose of illustrating an approach to measuring the financial benefit to the railway of reduced train headways which would result from replacement of level crossings with road overpasses. The relevant calculations are given in Table 4.4.

In the case of the level crossing observed in the vicinity of Agra, barrier closure was found to be 5 minutes for each train on average. On the assumption that barriers would remain open to road traffic for a similar period, the minimum headway (interval between trains running in each direction) would have to be 10 minutes. Thus the capacity of the line would be about 100 trains per day in each direction (60 minutes/10 minutes headway x 24 hours per day x service occupancy factor of 0.7).

Removal of the level crossing through the construction of a road overpass might have the potential to reduce headways to 5 minutes, but in order for the additional line capacity benefits to be realized all other level crossings on the line would also have to be replaced by road overpasses.

109 If this could be achieved, the new capacity on the line would be 202 trains per day in each direction (assuming that all trains ran at the same speed and that the signalling system installed on the line was capable of delivering 5 minute headways). However, even if only half of this additional capacity could be effectively utilized, it is likely that some 50 additional trains per day could run in each direction between Mathura and Bhopal. If it is further assumed that all of these trains are freight trains, then IR has the possibility of realizing a significant additional financial contribution (revenue less long run marginal cost) from the operation of these trains. Against this additional financial contribution would have to be offset the cost of constructing and maintaining multiple road overpasses along the line. If the cost of an overpass is of the order of, say, US$ 2 million, or 88 million Rupees, and the overpass could have an economic life of, say, 50 years then the Present Annual Value of the cost of replacing about 300 level crossings with overpasses between Mathura and Bhopal, supplemented by the annual cost of maintaining those overpasses would be of the order of 3.5 billion rupees.

Table 4.4: Financial analysis of road overpass construction programme

Item Description Units (as spec.) A. Cost of road overpass construction

(i) Capital cost - Rs. Mill. 88.000

(ii) Present annual value of (i) [ 50 year life; 12% discount rate ] - Rs. Mill. 10.597

(iii) Annual maintenance cost (10% of PAV) - Rs. Mill. 1.060

(iv) Total annual cost - per crossing, Rs. Mill. 11.656

(v) Assumed number of crossings between Mathura and Bhopal 300

(vi) Total annual cost – all crossings, Rs. Mill. 3,497

B. Increase in line capacity due to crossing elimination

(vII) Current headway, with level crossings - in minutes (estimated) 10

(viii) Equivalent train capacity (number of trains/direction/day, assuming 70% service occupancy) 101

(ix) Future headway, without level crossings - in minutes (estimated) 5

(x) Equivalent train capacity (number of trains/direction/day, assuming 70% service occupancy) 202

(xi) Additional capacity provided per direction per day 101

(xii) Practical use of additional capacity per direction per day 50

(xiii) Additional trains per year (both directions; 312 operating days per year) 31,450

(xiv) Additional net-ton km per year, millions (av. 1500 t payload; 600 km haul) 28,305

C. Required net revenue/contribution to cover annual cost (as per vi), Rs. per ntk 0.1235

Notes: (1) Item B (vii). If the average barrier closing time is currently 5 minutes and the crossing is then opened for an equal period of time, the minimum headway on each track must be 10 minutes, to allow safe separation between trains running in the same direction.

(2) Items B (viii) and B (x). On multiple track lines, line capacity is calculated as the summation of the capacity of each track. This in turn is calculated as: number of minutes in a day (1440) x service occupancy factor (70%) / headway in minutes.

(3) Item B (xii). It is assumed that the railway can only make use of 50 per cent of the additional capacity provided by reduced headways made possible by grade separation and the existing signaling system on the line, in order to schedule additional freight trains. Some proportion of the available new train paths will be used for passenger trains which are not positive contributors of net revenue.

110 The additional train operating capacity resulting from the reduced headways possible with grade separated road/rail crossings would be about 31,200 trains per year producing an additional 28.3 billion net-tonne kilometres per year. Thus the net revenue or financial contribution required to breakeven on this capacity expansion project would amount to about 0.12 rupees per net tonne-km.

Of course, the level of contribution available would depend upon the type of traffic, as well as the market conditions and tariffs prevailing at the time. However, on the basis of the results of a financial analysis conducted as part of the Trans-Asian Railway Southern Corridor Study in 199822, it was found that the contribution on container traffic amounted to about 1.21 rupees per net tonne-km, or about ten times the breakeven rate identified above. Even if the additional traffic generated by capacity expansion mainly comprises bulk freight traffic, it is quite likely that the net revenue generated by this traffic will also exceed the level of net revenue required to breakeven on the annual capital and maintenance costs of a road overpass. Thus it might be concluded that a capacity expansion programme, involving replacement of all level crossings on a line with road overpasses would offer an attractive rate of return to the railway.

A similar approach may be used for calculating the benefits of a level crossing replacement programme in terms of reduced running delays and reduced operating costs.

In calculating the economic benefits of reduced level crossing delays, the time per year expended by road users waiting for the passage of trains through level crossings is given by the following formula:

Ti = (365 x K x ti x ni) / 60 minutes

Where: Ti = Total time lost (in person-hours); K = Number of barrier closures within 24 hours; ti = Average duration (in minutes) of every barrier closure; and ni = Average number of persons waiting at a level crossing during every barrier closure.

If it is desired to measure the economic benefits of equipping a manually operated crossing with automatic crossing equipment, this formula may be used for the purpose of calculating the total delay involved and then the delay may be valued at the level of Gross Domestic Product (GDP) per capita prevailing in the economy in which the measurement is being made.

By way of illustration a hypothetical example based on the experience of India might be used. This example has the following elements;

#$ a manually-operated level crossing on a double track section carries 90 trains (45 in each direction) and 10,000 motor vehicles per day; #$ barriers for this crossing are closed for an average of 5 minutes per time;

22 United Nations, New York 1999, Development of the Trans-Asian Railway: Trans-Asian Railway in the Southern Corridor of Asia-Europe Routes.

111 #$ on average there are 35 motor vehicles each containing 3.5 persons waiting during periods of barrier closure (i.e. 122 persons in total); and #$ conversion of the crossing for automatic operation will result in reduction of barrier closure to 2 minutes per time (with an average of 49 persons waiting with every barrier closure).

The resulting delay calculations and their valuation are given in Table 4.5.

Table 4.5: Economic benefits resulting from reduction of barrier closure time

Item Description Units (as spec.) A. Estimation and valuation of delays to motorists using a manually-operated level crossing

(i) Estimation of total delay (in person-hours) per year 333,975

(ii) Per capita GDP per hour for India in US$ 0.0543

(iii) Valuation of total delay in US$ per year [A (i) x A (ii)]: 18,135

B. Estimation and valuation of delays to motorists using an automatic level crossing

(iv) Estimation of total delay (in person-hours) per year 53,656

(v) Per capita GDP per hour for India in US$ 0.0543

(vi) Valuation of total delay in US$ per year [B (i) x B (ii)]: 2,913

C. Net time saving benefit of B relative to A, valued in US$ per year 15,221

D. Cost of automatic barrier installation

(vII) Capital cost - automatic lifting barrier with flashing light and block signal 53,900 (viii) - optical sensor obstruction detector 81,600 (ix) - Sub-total 135,500

(x) Present annual value of (ix) [ 15 year life; 12% discount rate ] 19,895

(xi) Annual operating and maintenance cost (assume 2 x maint. Cost of manual system) 1,136

(xii) Total annual cost 21,031

(xiii) Annual cost net of government taxes and charges 18,928

E. Benefit / Cost ratio (C / Dxiii) 0.80

Notes: (1) Item A (i) If a crossing carrying 10,000 motor vehicles per day is closed for 5 minutes with every train passage, the average number of vehicles detained at the crossing during the period of barrier closure will be: (10,000 vehicles/1440 minutes per day) x 5 minutes = 34.7. If this number is multiplied by an average of 3.5 occupants per vehicle, the total number of persons delayed by the barrier closure will be 34.7 x 3.5 = 121.4. Applying the formula given in 4.4.2 (b), above, will produce the following calculation of the annual time loss in person hours: 365 days x 90 barrier closures per day x 5 minutes per closure x 122 persons delayed = 334,000 (approximately).

(2) Item B (iv). The method used to calculate this item is identical to that described above, except that the average barrier closure time is 2 minutes, rather than 5 with the related reduction in the build-up of waiting vehicles.

112 This example shows that even at the low valuation applying to road users’ time, an improvement of level crossing warning and protection systems can result in a substantial time saving benefit to the community. However, these results are quite sensitive to changes in the volume of motor vehicle traffic using the crossing. For example, if the number of road vehicles using the crossing were reduced by one third, to 7000 per day, on average there would be only 85 persons waiting at the barriers (34 with 2 minute closures), the net time saving would reduce to US$ 10,621 per crossing per year and the Benefit/Cost Ratio to 0.56. In this case, breakeven on the cost of automatic barrier installation (i.e. when benefits and costs are equalized and the BCR is 1.0) would occur when 12,500 motor vehicles per day use the crossing, detaining an average of 152 persons per barrier closure (61 with 2 minute closures) and producing a net time saving of US$ 18,981 per crossing per year.

A similar approach may be applied to the valuation of the economic benefits of time savings realized by rail passengers as a result of level crossing signalling improvements. Again, these benefits have to be quantified over the full route distance, but are likely to be of a much lower order of magnitude than those for motorists, since a relatively small number of trains operating throughout the region are likely to be subjected to speed restrictions through level crossings.

4.4.3 Financial analysis of alternative methods of safety enhancement at level crossings

A recurring theme throughout this study has been the relative advantages and disadvantages of installing manually operated barrier protection systems, as compared with automatic systems, at level crossings. It is desirable, therefore, to propose a method for comparing the quantified costs and benefits of each. It should be noted that this is one case where a financial, rather than an economic, evaluation is appropriate, since it is the railway which must seek a minimum cost solution to the problem of safety enforcement at its level crossings.

An example of a financial comparison of the two alternative systems, based on Indian Railways data, is provided in Table 4.6. The two alternative systems are:

#$ A manually operated full width barrier system, with block signal and flashing road warning lights; and

#$ A train-activated full width barrier system, with a block signal, flashing road warning lights, and an obstruction detector connected to the block signal.

It is important that exactly the same level of protection should be provided by the systems being compared, so that the comparison is on a strict like-for-like basis. For this reason, it is necessary to equip the automatic system with an obstruction detector, activated by an optical sensor which will send a signal indication of the presence of any type of obstruction on the level crossing – to which the train driver may respond before the train reaches the level crossing. In the case of the manually operated barrier system, the crossing keeper has the function of an obstruction detector and is able to provide the signal warning to the train driver.

113 Table 4.6: Financial comparison of manual and automatic barrier systems

Item Description Rs. mill. US$

A. Cost of manual barrier installation

(i) Capital cost - lifting barrier with flashing light and block signal 1.6984 38600 (ii) Present Annual Value of (i) [ 15 year life; 12% discount rate] 5667 (iii) Annual staffing cost 0.25 5682 (iv) Annual maintenance cost (assume 10% of staffing cost) 568 (v) Total, annual cost 11917

B. Cost of automatic barrier installation

(vi) Capital cost - automatic lifting barrier with flashing light and block signal 2.3716 53900 (vii) - optical sensor obstruction detector 3.5904 81600 (viii) - Sub-total 135500 (ix) Present Annual Value of (viii) [ 15 year life; 12% discount rate] 19895 (x) Annual operating and maintenance cost (assume 2 x maint.cost of manual syst.) 1136 (xi) Total, annual cost 21031

C. Net cost advantage for manual installation 9114

This example shows that a manual barrier system has a substantial cost advantage over an automatic barrier system, provided that it can provide the same level of safe operation as the automatic system. Clearly, the need to incorporate an obstruction detector in the automatic barrier installation reduces the cost effectiveness of this alternative by a substantial margin. However, the very low cost of labour in this example from India also contributes significantly to the cost- effectiveness of the manual barrier system, since labour rates would have to be expanded by a factor of nearly 2.6 to equate the overall costs of the two systems.

4.5 Technical assessment of level crossing protection devices

In this section, the range of level crossing protection systems currently available and likely to be available in future is considered and an approach to appraising the technical merits of the alternatives is suggested. As was observed in Chapter 2, only the protection of level crossings with barriers and suitable warning devices is likely to result in the desired level of safety in Asia.

4.5.1 Currently available level crossing protection systems

(a) Crossing warning signals

In general, these are of two types: automatic and manually operated signals.

Manually activated signals are operated by level crossing staff, on instructions transmitted by telephone or telegraph signal from the nearest station.

Automatic warning signals need short track circuits or markers which detect trains and activate warning indications at level crossings. These warning indications are usually flashing lights, or sounds emitted by bells or claxons (horns), or a combination of these two. If visibility at a crossing is a problem, then flashing lights

114 may be increased in intensity and may be installed so as to suit the lay of the surrounding land and buildings. Similarly, audible-warning devices may be increased in frequency and amplitude, to compensate for the sound absorption qualities of the physical environments of level crossings.

From experience, the level of safety afforded by these devices on their own is insufficient. This is particularly true in the case of level crossings accommodating two or more tracks. If unmanned level crossings are to be contemplated in these situations, then some form of train approach indication is absolutely essential.

(b) Automatic crossing barriers

These have multiple functions, including provision of:

#$ a physical barrier to prevent or (perhaps more realistically) to dissuade motorists from entering a level crossing into the path of an oncoming train; #$ a crossing warning signal, indicating the presence of a level crossing; #$ a train approach indicator warning of oncoming trains; and #$ a crossing failure indicator warning of mechanical or electrical failure of level crossing equipment.

If desired, train detectors and obstruction warning devices based on a phototube system may be connected to automatic crossing barrier mechanisms.

There are many types of automatic level crossing barriers, the most commonly used types being swinging or lifting booms. Automatic trolley gates exist and a small number in fact have been installed within the region (mainly in Viet Nam), but in general use of the trolley gate system is restricted to manned level crossings.

Automatic swinging boom barriers have a greater number of mechanical parts than automatic lifting boom barriers and thus are exposed to greater risk of spare part shortages.

Automatic half barrier level crossings are found in many countries of Europe. This system functions satisfactorily when the road carriageways may be physically segregated. In the case of many two lane rural roads in Europe, however, lane segregation has not been possible and accidents caused by motorists making slalom (or S pattern) moves through half barriers are frequent. Despite the relatively low cost of the half barrier system it has not been widely used in Asia. Indeed, Japan withdrew from use of this system several years ago.

To enhance the visibility of barriers to motorists, a number of different methods have been devised including painting in tiger stripes and use of large diameter booms, double booms and high positioned booms (for trucks).

Mechanical crossing barriers are operated by level crossing staff using hand or electrically powered levers, winches or windlasses. In addition, mechanical barriers providing complete protection of level crossings are connected to manually operated warning signals. Combination systems of this type are widely used within the developing countries of Asia since they may be manufactured inexpensively within the region. By contrast, automatic electronic crossing devices are wholly

115 manufactured within developed countries and must be imported at substantial cost for installation within the developing countries of the region.

There are three main types of mechanical barriers: lifting booms, swinging booms or gates, and trolley gates. Of these types, the trolley barrier provides the most effective form of protection against break-through by heavy goods vehicles. However, of necessity trolley barriers are of heavy construction and are best deployed by means of remotely controlled electric motors. This type of barrier is used at a major level crossing intersection in Hanoi, Viet Nam, but the Vietnam Railways has encountered problems with maintenance of a sufficient stock of spare parts in order to keep the motor systems functioning.

Swinging type barriers afford a generally greater level of protection than lifting barriers against breakthroughs, but particularly when installed at double track level crossings they must be equipped with efficient locking systems.

(d) Train detectors

Automatic devices of this type detect the presence and speed of a train in block sections at the approach to a level crossing. They are installed only near unmanned level crossings and usually consist of a series of transponders inserted in track at certain intervals and interlocked with level crossing barriers and warning signals. Such devices must be capable of detecting train speeds since the elapsed time between a train’s detection and its arrival at a crossing will be a function of its speed.

The alternative to installation of automatic train detectors is to have train starting signals at stations interlocked with level crossing barriers and warning signals. These signals have the capability of identifying the type and hence speed of different trains and will transmit the appropriate signal to the level crossing protection system in order to activate it at a specified time before the arrival of a train.

In the case of manned level crossings the function of the train detector is substituted by level crossing staff, who receive advance warning by telephone or telegraph from the nearest station of the arrival of a train.

(e) Obstruction warning devices for level crossings

These types of devices are usually only installed at unmanned level crossings. Their function is to provide signal warnings to train drivers when level crossings are blocked by motor vehicles or other obstructions. They mainly consist of phototubes, supersonic wave emitting devices or laser beam transmitters which detect obstructions on crossings and are interlocked with distant signals before level crossings. When activated by the presence of obstructions (e.g. stalled motor vehicles), they transmit a flare indication to distant signals via short track circuits, allowing train drivers to apply emergency braking and to stop their trains short of the crossing.

(f) Equipment costs

Indicative costs of the various systems currently available for the protection of level crossings are given in Table 4.7. They are based on costs applicable in Japan in 1999.

116 Table 4.7: Level crossing warning and protection system costs

Item Description of device (s) Equipment Installation Total Remarks No. Cost (US$) cost (US$) cost (US$) (i) Crossing warning signal, train approach 2,100 2,900 5,000 Includes speaker indicator, crossing failure indicator for system for single track or multiple tracks transmission of audible warnings (ii) Crossing warning signal, crossing 2,000 2,400 4,400 failure indicator (iii) Crossing warning signal, train approach 2,100 2,900 5,000 indicator for single or multiple tracks (iv) Crossing warning signal 1,400 2,400 3,800 Flashing lights installed on both sides of crossing (v) Automatic half barrier installation 7,600 4,400 12,000 (vi) Automatic full barrier installation 15,200 8,700 23,900 (vii) Obstruction warning device for single 550 550 1,100 Includes switch track crossing set in concrete pillow (for emergency application by drivers of vehicles obstructing crossings) (viii) Obstruction warning device for multiple 1,000 1,100 2,100 As above track crossing (ix) Crossing obstruction detector - 38,100 9,800 47,900 3 pairs required phototube system on single track (x) Crossing obstruction detector - 54,400 27,200 81,600 5 pairs required phototube system on double track

Sources: JR Tokai and JR East. Notes: (1) All costs in this table have been based on an exchange rate of US$ 1 – 103 yen. (2) Not included in the above costs is the price of installed cable (including both the material price and installation cost) which is about US$ 11 per lineal metre, as well as the price of concrete shielding for the cable which is about US$ 40 per lineal metre.

4.5.2 Future systems for level crossing protection

Systems likely to be available in future for the protection of level crossings are of types:

(a) Advanced radio-based train control system – general features

The American and Canadian Railway Associations began to study Advanced Train Control Systems (ATCS) in 1984. The systems then investigated involved the use of radio, satellite and radar communications. Following the lengthy appraisal of this technology, it will at last enter operational service with San Francisco’s Bay Area Rapid Transit System (BART) in 2001.

Transmission Based Train Control Systems (TBTC) which are similar to ATCS have been under study by the French National Railway (SNCF) and in Japan by the JR Technology Research Institute. This type of control system is close to practical application in Japan.

Further, the Indian Railways has been evaluating a radio-based ATC system designed by Siemens but similar to the system being introduced by BART. Pilot testing of the system will commence on the IR network during 2001.

117 Application of ATCS will allow elimination of track circuits and signals and in future will facilitate high density and unmanned train operations.

This system provides for the detection of a train’s position by means of a radio transmitter installed on the locomotive which then transmits this information to a wayside base (Figure 4.3). The wayside radio base determines the velocity at which the train will be able to run safely within the section given information inputs as to the gradient curvature and condition of the track. It then transmits this information back to the train either as data displayed within the cab or as direct commands to the train’s throttle and braking systems. For operation through level crossings, the train on- board computer calculates the time at which the level crossing warning lights or bells are switched in, based on the train velocity and level crossing position. This system may be overridden by train controllers in the event of equipment malfunction.

Figure 4.3: ATCS Concept

SRS: Station Radio Set WRS: Wayside Radio Set VRS: Vehicle Radio Set CS: Control Station

In addition, the system has blocking control, level crossing control and the functions of ATC (Automatic Train Control) and CTC (Central Train Control) systems. The basic components of the ATCS are a Train Radio Set (TRS), a Wayside Radio Set (WRS), a Station Radio Set (SRS) at Control Stations, a Level Crossing Controller (LCC) and connecting systems between the train, wayside locations, level crossings and control stations. TRS are installed at both ends of each train. WRS are installed at the trackside (at intervals of 500m to 1500m on the BART system). SRS are installed at 20 station locations on the BART system. Signals and track circuits between stations are not needed at this system.

(b) ATCS - level crossing safety features

Existing level crossing systems represent a weak point of safety management and control on railways. Adequate warning time is needed for safe level crossing operation. Existing systems having electronic train detectors work on the basis of short track circuits installed in the track approaches on either side of level crossings. These systems control the beginning and end of the warning indication. The disadvantage of this system is that the warning interval becomes disproportionately long with slow trains, because maximum train speeds normally determine the interval between the beginning and end points of track circuited sections, and thus a train operating at slow speed will take significantly longer to pass between these two

118 points. Further, existing crossing obstruction detectors do not stop trains automatically if crossings are obstructed - they merely provide a wayside signal indication of such obstructions to the train driver, leaving the responsibility for brake application to the driver.

With new ATCS systems, warning indications begin from the position at which an emergency brake application would be needed in order to bring a train to rest before a crossing, the braking distance being calculated automatically by the system on the basis of a train’s speed past the radio relay point. The computers on board trains calculate their position and send the train number, train position and time until beginning of the warning indication to the Level Crossing Controller (LCC) through the Wayside Radio Station (WRS). The WRS picks up signals from the closest approaching trains, but only begin to transmit the signal to the LCC in order to activate the warning indication at the calculated control time. If no level crossing obstruction indication has been received by this time, the WRS will permit the approaching train to pass and will transmit crossing warning and barrier activation messages to the LCC. The train will then be permitted to pass through the level crossing on schedule. However, if an obstruction warning indication is received, the WRS will transmit a signal to the train receiver (TRS) in order to activate emergency braking.

With financial efficiency being one of the major objectives of railways, opportunities to minimize costs are of fundamental importance to railway managements. In this context ATCS, by eliminating devices on and along the track, substantially reduces both installation and maintenance expenses. Because the system has no wiring or trackside signals (all warning indications being transmitted to the locomotive cab), hardware installation costs and inspection and adjustment costs are significantly lower than for the conventional track-circuited system. Further, the system will allow trains to operate through level crossings consistently at normal speed.

The functions of CTC and ATC are added easily to the system for a relatively low additional cost. Indeed, the addition of CTC or ATC is estimated to comprise less than 50 per cent of the total system installation cost.

An automatic level crossing warning/protection system based on conventional track circuiting is estimated to cost US$ 45,000 per level crossing in Japan. By contrast, the cost of a BART-style ATCS23 is estimated to cost only about US$ 22,000 per level crossing.

(d) GPS-based Advanced Train Control System

Global Positioning Satellite (GPS) communications systems are now in common use for sea, air and land transport navigation applications. GPS uses communications links with number of satellites to establish the navigation coordinates of aircraft or surface transport receivers. GPS systems are on the whole very inexpensive – a receiver for an automobile now costing as little as US$ 500.

23 The BART system, known as an AATCS (Advanced Automatic Train Control system) was developed by Nippon Signal in conjunction with Hughes and Harmon of the United States.

119 As compared with ATCS, the advantage of using GPS for train control functions is that it entirely eliminates the need for Wayside Radio transmitter links. However, the system does have some shortcomings, the most significant of which is that in civilian applications it is subject to significant error. GPS was originally developed for military use with links to satellites reserved for military communications. In military applications, the error is no more than several centimetres, but in civilian applications (using less reliable satellite fixes) the error can be as much as 30 metres – certainly excessive for locating trains in relation to level crossings. If it were possible to obtain access to military satellites, considerably more accurate navigational information would be available at minimal cost.

Another problem associated with GPS is that of setting the marks for revision of distance errors. These marks must be set accurately on maps or route charts. In the case of ATCS lines, trackside receivers may be used as markers for validating GPS co-ordinates, but in the case of lines not equipped with ATCS, new markers must be established within reasonable margins of error on maps or route charts. Comparing the cost of radio-based and GPS-based ATCS, currently radio-based ATCS is the cheaper alternative, but in future it is highly likely that GPS-based systems will overtake the radio-based systems to become the cheapest form of train control system available.

120 CHAPTER 5: CONCLUSIONS AND RECOMMENDATIONS

5.1 General

This chapter presents the conclusions and main recommendations flowing from the analysis of level crossing systems and safety performance in several developed and developing countries. Among other things, this analysis compared and contrasted level crossing safety performance in selected countries of Western Europe, in North America and in Japan against the corresponding performance in the developing countries of the ESCAP region in an effort to establish whether lessons could be drawn from the experience of the former group of countries.

5.2 Conclusions

5.2.1 Comparative level crossing safety performance

Table 5.1 presents a comparison of the level crossing characteristics and safety performance of a selection of developed and developing countries.

The principal conclusions, which may be drawn from this comparison are that:

(i) those countries which performed best in terms of having a low incidence, per rail traffic unit, of accidents, fatalities and injuries at level crossings are countries which have a high proportion of their level crossings protected against infringement by road traffic, either by manually operated or automatic barriers24;

(ii) automatic barriers are not always a fully effective form of protection against collisions between trains and road vehicles at level crossings (the relatively high rates of accident and casualty occurrence in the Netherlands due to S-moves through half barrier protected crossings provide ample evidence of this);

(iii) of the seven countries participating in this level crossing study, the three which have both the greatest level crossing density and the lowest percentage of protected level crossings (Viet Nam, Thailand and Bangladesh) also have the highest accident and casualty rates; and

(iv) those participating countries which have a relatively high proportion of manned level crossings (i.e. India and the Islamic Republic of Iran) also perform best in terms of level crossing accident and casualty occurrence.

5.2.2 Comparative costs of level crossing systems

In addition to the conclusions drawn from the comparative analysis, the study demonstrated that the costs of installing manually operated barriers are significantly lower than those associated with the installation of automatically activated barriers.

24 The major exception to this observation is the Russian Federation, which ostensibly has the lowest accident and casualty rates of any of the countries compared, yet has more than half of its level crossings without any form of barrier protection.

121 There are two main reasons for this – that automatic barriers will require the installation of costly level crossing obstruction detectors and that simple manual barriers can usually be manufactured domestically, whereas the more sophisticated automatic barrier equipment will usually need to be imported.

Based on Japanese data, the cost of installing automatic full width barriers with road and rail warning lights and crossing obstruction detectors at a level crossing on a single track section is approximately US$ 77,000, whereas the cost of installing manually operated barriers with flashing warning lights at the same crossing (based on Indian data) is approximately half this amount, or US$ 39,000. Based on Indian data, the annual costs of operating and maintaining automatic and manual barrier installations are about US$ 1,100 and US$ 6,300, respectively. If the capital cost of these installations is to be written off over a period of 15 years, the saving in O&M cost associated with an automatic barrier system would be insufficient to cover its additional capital cost.

5.2.3 Do the railway systems of the region have an adequate information base for setting level crossing upgrading priorities?

In general, the answer to this question is “no”. In none of the railway systems participating in this study was it apparent that any regular analysis of risks was undertaken in respect of level crossings, or indeed of any other type of railway accident.

Moreover, few of these railway systems appear to have an adequate safety information system, which would support any rigorous assessment of safety hazards and risks. While several appear to have a computerized inventory of their level crossing installations, very few if any appear to have an accident reporting system capable of providing detailed accident information in respect of individual level crossings.

Regular risk assessment is an essential foundation for establishing priorities for level crossing grade separation or protection works. This is especially true for railway systems, which face severe capital funding restrictions, but have both a high level crossing density and a low proportion of protected level crossings. Such systems do not have the resources to be able to grade separate or to protect a majority of their level crossings and must therefore concentrate their expenditures on safety enhancements which will produce the greatest returns in the form of reduced safety risk and accident occurrence. Thus, they need to be able to identify and prioritise these projects on the basis of systematic risk assessments. For this, they will need at minimum an information system which can provide updated information on: the physical environment and equipment of individual level crossings; the daily level of road and rail traffic through individual crossings; and the detailed accident histories of these crossings.

5.2.4 Are the railways of the region committed to road user education programmes and potentially how effective are these programmes?

The overwhelming majority of all collisions between trains and road vehicles at level crossings are caused by the negligence, incompetence or incapacity of road vehicle drivers. That fact having been established, it would appear that education of road vehicle drivers should have priority in the expenditure budgets of railway organizations. However, at this point in time, such is not generally the case.

122 Table 5.1: Comparative analysis of level crossing characteristics and safety performance in selected developed and developing countries

Country/Railway Route – Number of Level Predominant type of level crossing Accident rate Fatality rate Injury rate System km level crossing (per mill.train-km) (deaths/mill. Train-km) (per mill.train-km) crossings density (crossings/ km) France 31,200 17,514 0.56 Automatic half width barrier, unmanned 0.33 0.05 0.05 (64%) Netherlands 2,808 2,964 1.06 Automatic half width barrier, unmanned 1.01 0.28 0.29 (68%) United States 212,400 259,435 1.22 Unprotected and unmanned, equipped 2.01 0.25 0.75 only with fixed road warning signs Japan 27,230 37,326 1.37 Automatic full width barrier, unmanned 0.36 0.10 0.12 (83%) Bangladesh 2,734 2,149 0.79 Official unprotected, unmanned (43%) 0.74 0.66 2.46 India 62,495 40,445 0.65 Official unprotected, unmanned (51%) 0.10 0.21 0.28 Islamic Republic 5,995 418 0.07 Manual full width lifting barriers 0.64 0.11 0.17 of Iran (48%) Philippines 484 308 0.64 Official, unprotected and unmanned, Not available Not available Not available equipped with fixed road warning signs (52%) Russian 86,151 13,581 0.16 Official, unprotected and unmanned, 0.04 0.01 0.02 Federation but equipped with automatic flashing road warning lights (41%) Thailand 4,041 2,237 0.55 Official, unprotected and unmanned, 12.9 1.05 3.00 equipped with fixed road warning signs (51%) Viet Nam 2,712 4,842 1.79 Unofficial, unprotected, and unmanned Not available 5.29 10.40 (75%)

Sources: Country reports; UIC; Railway system information booklets; “Operation Lifesaver” website; AAR website. Notes: (1) “Protected” level crossings are at grade rail over road crossings which have some form of barrier protection against road vehicle infringement. (2) All data relate to 1998, except for France (1997), Netherlands (1996) and Bangladesh, Philippines and Thailand (period 1988-1998). (3) US accident and casualty rates were derived from Association of American Railroads (AAR) data which for 1998 show an overall railway accident rate of 3.6 accidents per million train-miles and about 90 per cent of all railway accidents occurring at level crossing. The Indian Railways, for one, participates in driver safety education programmes with an emphasis on level crossing safety. However, level crossing accidents account for only 15 per cent of all railway accidents in India and an infinitesimally small proportion of all road traffic accidents. Consequently, there is little incentive for the Indian Railways, and even less incentive for the Indian highways authorities, to allocate a large budget to level crossing user education programmes.

Additionally, low levels of general education and safety awareness throughout the developing countries of Asia have tended in the past to minimize the effectiveness of level crossing user education programmes. Nevertheless, increasing disposable incomes and motorization levels in India and in the other developing countries of the region suggests that these education programmes should receive greater priority in future.

5.2.5 Traffic threshold criteria for level crossing improvement

Most of the region’s railways apply traffic threshold criteria as a basis for determining the type of level crossing installations, which should be provided at individual road/rail intersections. In most cases, these criteria are based on the combined daily rail and road traffic passing through level crossings and are designated “Traffic Moment” indicators. They are computed as the product of daily train numbers and the daily numbers of road vehicles using the crossing. At the bottom end of the TM scale, minimal level crossing installations are indicated. At the top end of the TM scale, grade separation of crossings is indicated.

In some cases (for example in Viet Nam) the TM indicators have been set at unrealistically low levels and consequently are not capable of practical application. In other cases (for example in India), while the TM indicators have been set at realistic levels, budget restrictions have prevented full application of the TM criteria. Thus, in India for example, where a TM value of 100,000 indicates that a crossing should be grade separated, there are many level crossings which have long since passed this threshold level, yet have still not been grade separated.

In Japan, the JR West Railway Company has recently introduced a composite index based on allocated scores to determine the standard of level crossing protection required at individual locations. In addition to road and rail traffic densities, other factors to which scores are assigned include the accident histories and physical characteristics of individual crossings. High aggregate scores will indicate priority for grade separation. Low aggregate scores will suggest minimal standards of level crossing protection. Still other criteria have been developed which incorporate scores for level crossing closure time (high = low closure time; low = high closure time). While a case may be made out for improving the criteria applied to level crossing improvement, it is unlikely that there would be a better substitute for TM indicators set at realistic levels, supplemented by accident risk assessments.

5.2.6 Level crossing safety and operational efficiency

While level crossing safety must be a paramount consideration for railway managements, it is equally important that they should not loose sight of their operational objectives, including making most efficient use of the line capacity provided by current infrastructure and signalling configurations. Thus, it should be the objective of railway managements to ensure that train speed restrictions at level crossings do not unduly restrict a system’s train throughput capacity. Barrier closing

124 devices and warning systems should be compatible with the operation of trains through crossings at normal speeds.

On the other hand, long barrier closure times can have an adverse impact on safety on densely trafficked crossings, if they produce road traffic build-up to such an extent that crossings cannot be cleared of road traffic before the next train arrival. Long barrier closure times can also incite driver impatience and lead to barrier breakthroughs, which might easily result in collisions.

Invariably, a requirement for reduced barrier closure times will mean that existing manually operated barriers should be converted to electrical operation. It may also mean that signalling systems requiring long barrier closure times (such as the outdated Absolute Block systems) should be replaced by more modern signalling systems which can accept shorter crossing closure times.

5.3 Recommendations

From these conclusions a number of possible courses of action may be identified. The following recommendations are offered as guidelines for consideration and possible application by the railway managements of the region in dealing effectively with their level crossing problems:

(i) The railway managements of the region should re-evaluate their approach to monitoring level crossing safety and to setting priorities for implementing safety enhancement measures for level crossings on their respective systems.

In particular, they should give careful consideration to introducing effective Safety Management Systems along the lines of the model system described in Chapter 4.

(ii) Wherever justified by the combined density of road and rail traffic, the railway systems of the region should give first priority to the grade separation of their level crossings.

While grade separation is undeniably the most effective means of enhancing level crossing safety, the cost of constructing road under or over-passes is very high and often beyond the financial means of some of the railways of the region. Choice of this solution must therefore be influenced strongly by a realistic assessment of the combined density of the road and rail traffic likely to use current road/rail intersections.

(iii) Desirably, all railway systems of the region should carry out regular safety audits and risk assessments for all of their level crossing installations.

Use of a Safety Management Information System supplemented by application of risk evaluation techniques along the lines of those described in Chapter 4 will improve the capability of railway managements to identify and prioritise level crossing safety enhancement measures.

125 (iv) Railway managements should take action either to close, or to provide effective protection for, all “unofficial” level crossings on their systems.

In the case of some railway systems of the region (notably that of Viet Nam) substantial improvement of level crossing safety will simply not be possible unless the unofficial crossing problem is addressed effectively.

(v) Rather than committing scarce capital funds for the acquisition of sophisticated automatic systems of level crossing protection, railway managements should adopt a policy of manning currently unprotected crossings and equipping them with inexpensive locally manufactured barrier and warning systems wherever this is indicated by assessments of traffic density and/or adverse physical factors at specific crossings.

While labour costs are still inexpensive in most countries of the region, manually operated level crossing barriers and warning systems (perhaps complemented by electrical activation mechanisms) provide the most cost effective method of providing a maximum level of safety at all but the most densely trafficked crossings, which in any event would normally qualify for grade separation. Alternative automatic protection systems (especially the half-barrier systems widely used in Europe) do not have a particularly good record of safe operation and, in the absence of crossing protection staff, require the installation of expensive crossing obstruction detectors in order to guarantee minimum levels of safety.

(vi) Railway managements should actively seek funding assistance for level crossing improvements or grade separation from road authorities.

There is a particularly strong argument for such an approach when road traffic is shown to be growing at a faster rate than rail traffic.

(vii) Railway managements should be prepared to develop carefully targeted campaigns directed at the education of level crossing users and to ensure that adequate priority is attached to the funding of these campaigns.

Particularly as disposable incomes and motorization levels are increasing throughout the region, the railways of the region should intensify their efforts to improve level crossing safety awareness throughout the communities they serve. While wide use should be made of the mass media (newspapers and television), note should be taken of simpler, but effective, methods of delivering public education programmes. In India, the use of punjayat, or local village council, offices as a vehicle for disseminating level crossing safety information appears to have proven effective and is recommended as a model for adoption by other railways of the region.

126