Skip-Stop Operation: High Speed with Good Area Coverage Vukan R

Skip-Stop Operation: High Speed with Good Area Coverage Vukan R

University of Pennsylvania ScholarlyCommons Departmental Papers (ESE) Department of Electrical & Systems Engineering 1976 Skip-Stop Operation: High Speed With Good Area Coverage Vukan R. Vuchic University of Pennsylvania, vuchic@seas.upenn.edu Follow this and additional works at: http://repository.upenn.edu/ese_papers Part of the Civil Engineering Commons, Systems Engineering Commons, and the Transportation Engineering Commons Recommended Citation Vukan R. Vuchic, "Skip-Stop Operation: High Speed With Good Area Coverage", UITP Revue , 114-120. January 1976. This paper is posted at ScholarlyCommons. http://repository.upenn.edu/ese_papers/745 For more information, please contact repository@pobox.upenn.edu. Skip-Stop Operation: High Speed With Good Area Coverage Abstract Increase of transit speeds is one of the most effective ways of increasing the attractiveness of transit for urban travel. While surface transit in particular suffers from low speed, the desirability of higher speeds is not limited to it. Rapid transit has adequate speed for short to medium-distance trips in urban areas. However, for longer. trips, particularly when there is a competing freeway facility, the requirement for speed is rather high. Since many station spacings are adopted on the basis of area coverage, high operating speed of the trains often cannot be achieved. Thus, typical lines of urban rapid transit with average interstation spacings of approximately 800 metres have only limited length on which their speeds are satisfactory; for distances longer than, typically, 8-10 km, they often become too slow. This is becoming an increasing problem with· the spatial spread of cities. This article describes the main alternative solutions to this problem and then focuses on the skip-stop operation, presenting a methodology for its analysis and evaluation of its applicability. The ra ticle refers to rail services, but the basic aspects of the problem are common for any technology. For example, there are light rail and bus services for which skip-stop service could be considered utilizing the methodology developed here. Disciplines Civil Engineering | Engineering | Systems Engineering | Transportation Engineering This journal article is available at ScholarlyCommons: http://repository.upenn.edu/ese_papers/745 656.42.052.442 :656.222.4 servic trainf and terrni sixth then static age dras1 :Skip-stop operation and r> tions ·high speed with good area coverage for majc s Dr.-lng. Vukan R. VUCHIC, usec Associate Professor of Civil and Urban Engineering, University of Pennsylvania, Phlladelphia, P A (USA.) delp . of l incn taim eval Increase of transit speeds is one of the most on the other two tracks. Provision of only three tracks anal effective ways of increasing the attractiveness of can also provide such service, if the third track is used whic transit for urban travel. While surface transit in particu­ for express trains in the peak direction. In addition ope. lar suffers from low speed, the desirability of higher to New York, Chicago and Philadelphia have both services. However, the cost of the additional tracks speeds is not limited to it. Rapid transit has adequate Des speed for short to medium-distance trips in urban areas. is very· high and there are few cases in which they can However, for longer. trips, particularly when there is a be economica,lly justified. competing freeway facility, the requirement for speed . Rapid Transit 'and Commuter Railroad. In those on is rather high. Since many station spacings are adopted cities which have commuter railroads serving the·same by on the basis of area cqverage, high operating speed corridors as rapid transit (each has two tracks), the A, I of the trains often cannot be achieved. Thus, typical railroads serve the farther-out areas, while rapid transit, at Jines of urban rapid transit with average interstation with frequent stations, provides coverage for the inner sta' spacings of approximately 800 metres have only limited area. Examples of this arrangement are found in New whi length on which · their speeds are satisfactory; for York, Chicago, London and Paris. Most other cities do distances longer than, typically, l:!-10 km, they often not have these two types of services, so rapid transit become too ; slow. This is becoming an increasing must satisfy ·both requirements - speed and area COi problem with· the 1spatiai spread of cities. coverage. 1. This article describes the main alternative solutions to this problem and then focuses on the skip-stop Two-tra_ck Operati on operation, presenting a methodology for its analysis 2. and evaluation of its applicability. The article refers to Longer lnterstation Spacings. Considerable use of rail services, but the basic aspects of the problem automobiles for access to stations has decreased some­ are common for any technology. For example, there what the impqrtance of frequent stations in suburban are light rail and bus services for which skip-stop areas. Theref�re, new rapid transit systems in Cleve­ 3. service could be considered utilizing the methodology land, Philadelphia (Lindenwold) and·San Francisco have developed here. very long interstation spacings (up to 5-8 kilometers). i 4. i This type of service, however, still -has the problem :\ ji that it does riot adequ1:;1tely serve the whole corridor '· The alternative solutions through which the line passes. Also, the stations create excessive concentrations of automobile traffic, negative­ Multitrack · Operation ly affecting _ the immediate surroundings of those stations. Express-Local Service. The best way to offer fast service to long-distance riders as wi:ill as good service The question is then whether it is possible to satisfy to the· corridor by short interstation spacings is to both the speed and the area covenme requirements provide express and local service !'.)n more than two on a two-track facility utilizing operational methods tracks. New York City has a · number of lines which sue� as different stopping schedules for different trains. provide express service on two tracks and local service Express-Local Service. Some rapid transit systems (Chicago and Philadelphia's Linden-.yold Line) operate express-local service on two tracks by dispatching an revised version of the article « Skip-Stop (") This article is a train Operation as a Method of Transit Speed Increase. ,. published in express train after a long headway:. and a local • Traffic Quartely », Vol. XXVII, No. 2, Aprll 1973, reprinted with immediately after it. This service provides the advan­ the kind permission of the Eno Foundation and t�e author. tages of fast and undisturbed ride for long-distance Research for this article was partially sponsored by a grant riders, but it results in uneven headways and can be from the Urban Mass Transportation Administration (U.S. Depart­ used only when a line is operating considerably below ment of Transportation) to the University of Pennsylvania. Messrs. E. Tennyson, Deputy Secretary of Transportation of the State its capacity (headways longer than minimum). of Pennsylvania and F. -Berdan, SEPTA, provided data on Phila­ delphla rapid transit operations. The author gratefully acknowl­ Zonal Service. Some cities (e.g., New York, Phila­ edges this assistance. delphia) utilize zonal service for commuter railroad ,l 114 UITP-REVUE 2/1976 - - - - -------------�----����--�-- -- ' ~------------------------- -- ., ! . services. With this operation the first of a group of remains the same. However,. increased operating trains runs nonstop through, for example, stations 2-9 and, consequently commercial speed of trains and stops at stations 10, 11, 12, and 13, where it results in their higher productivity (passenger­ terminates. The following train runs nonstop to the kilometers per vehicle-hour). This allows a decrease sixth station and then stops at each station through in the number of trains without reduction in capacity, the ninth, where it turns back, while the last train serves with substantial cost savings. stations 2-5. This type of service results in higher aver­ age speed and lower fleet" size requirements, but it Following is a detailed comparison of skip-stop and drastically reduces frequency.cof service at each station standard operations, analysis of all differences between and also does not provide fo( travel between the sta­ them, and a methodology for an exact, yet simple tions in different zones. It is therefore applicable only evaluation of alternative types of operation : standard for commuter rail roads in the areas where a great and Skip-stop with different numbers of A-B station majority of passengers travel to one central point. pairs. Skip-stop Service. Skip-stop operation has been used with considerable success in Chicago and Phila­ Comparison of skip-stop with standard operation lA) delphia. This is the sole method by which the speed . of urban transit lines with only two tracks can be The characteristics of skip-stop compared with increased and high frequency of service can be main­ standard operation and the resulting relative advantages tained. Thepurpose·of this article is to describe and and disadvantages are listed and evaluated here. evaluate this type of operation. On the basis of the Figure 2 shows them schematically : rectangular boxes <s analysis, conclusions will be drawn as to the cases in show operational differences; boxes with rounded sides ,d which this type of operation is superior to the standard contain advantages (a) and disadvantages (d) of skip­ >n operation in which all trains stop at all stations. stop operation, as they affect the two « parties " : Ih passengers (P) or operator (0). (s Description of skip-stop operation Ln The operational differences of skip-stop operation are: Skip-stop operation, shown with standard operation 'e on a time-distance diagram in Figure 1, is obtained 1. operating speed is increased; le by classifying stations along a line into three groups : le A, B, and AB. Alternative trains stop at A and AB and 2. frequency of stopping is reduced; t, at B and AB stations, respectively.

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