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Telecommunications/Icts for Rural and Remote Areas Output Report on ITU-D Question 5/1 Telecommunications/Icts for Rural and Remote Areas
ITUPublications International Telecommunication Union Study period 2018-2021 Development Sector Study Group 1 Question 5 Telecommunications/ICTs for rural and remote areas Output Report on ITU-D Question 5/1 Telecommunications/ICTs for rural and remote areas Study period 2018-2021 Telecommunications/ICTs for rural and remote: Output Report on ITU-D Question 5/1 for the study period 2018-2021 ISBN 978-92-61-34591-4 (Electronic version) ISBN 978-92-61-34601-0 (EPUB version) ISBN 978-92-61-34611-9 (Mobi version) © International Telecommunication Union 2021 International Telecommunication Union, Place des Nations, CH-1211 Geneva, Switzerland Some rights reserved. This work is licensed to the public through a Creative Commons Attribution- Non- Commercial-Share Alike 3.0 IGO licence (CC BY-NC-SA 3.0 IGO). Under the terms of this licence, you may copy, redistribute and adapt the work for non-commercial purposes, provided the work is appropriately cited, as indicated below. In any use of this work, there should be no suggestion that ITU endorses any specific organization, product or service. The unauthorized use of the ITU name or logo is not permitted. If you adapt the work, then you must license your work under the same or equivalent Creative Commons licence. If you create a transla- tion of this work, you should add the following disclaimer along with the suggested citation: “This translation was not created by the International Telecommunication Union (ITU). ITU is not respon- sible for the content or accuracy of this translation. The original English edition shall be the binding and authentic edition”. -
PDF. Ksar Seghir 2500Ans D'échanges Inter-Civilisationnels En
Ksar Seghir 2500 ans d’échanges intercivilisationnels en Méditerranée • Première Edition : Institut des Etudes Hispanos-Lusophones. 2012 • Coordination éditoriale : Fatiha BENLABBAH et Abdelatif EL BOUDJAY • I.S.B.N : 978-9954-22-922-4 • Dépôt Légal: 2012 MO 1598 Tous droits réservés Sommaire SOMMAIRE • Préfaces 5 • Présentation 9 • Abdelaziz EL KHAYARI , Aomar AKERRAZ 11 Nouvelles données archéologiques sur l’occupation de la basse vallée de Ksar de la période tardo-antique au haut Moyen-âge • Tarik MOUJOUD 35 Ksar-Seghir d’après les sources médiévales d’histoire et de géographie • Patrice CRESSIER 61 Al-Qasr al-Saghîr, ville ronde • Jorge CORREIA 91 Ksar Seghir : Apports sur l’état de l’art et révisoin critique • Abdelatif ELBOUDJAY 107 La mise en valeur du site archéologique de Ksar Seghir Bilan et perspectives 155 عبد الهادي التازي • مدينة الق�رص ال�صغري من خﻻل التاريخ الدويل للمغرب Préfaces PREFACES e patrimoine archéologique marocain, outre qu’il contribue à mieux Lconnaître l’histoire de notre pays, il est aussi une source inépuisable et porteuse de richesse et un outil de développement par excellence. A travers le territoire du Maroc s’éparpillent une multitude de sites archéologiques allant du mineur au majeur. Citons entre autres les célèbres grottes préhistoriques de Casablanca, le singulier cromlech de Mzora, les villes antiques de Volubilis, de Lixus, de Banasa, de Tamuda et de Zilil, les sites archéologies médiévaux de Basra, Sijilmassa, Ghassasa, Mazemma, Aghmat, Tamdoult et Ksar Seghir objet de cet important colloque. Le site archéologique de Ksar Seghir est fameux par son évolution historique, par sa situation géographique et par son urbanisme particulier. -
TABLE 7 - Trans-Ocean Fiber Optic Cable Capacity
TABLE 7 - Trans-Ocean Fiber Optic Cable Capacity Table 7 - Continued - Construction cost sources: Cable Source Trans - Atlantic - Operational: TAT-8 98 FCC 2 nd 447 (1984) PTAT 100 FCC 2 nd 1036 (1985) TAT-9 4 FCC Rcd 1130 (1989) TAT-10 7 FCC Rcd 445 (1992) TAT-11 7 FCC Rcd 136 (1992) TAT-12/13 8 FCC Rcd 4811 (1993) CANTAT-3 www.athens.actinc.bc.ca/ACT/news.oct/cable.html, downloaded 3/10/1997. Columbus II Application, filed on November 10, 1992, File No. ITC-93-029. CANUS-1 n.a. Atlantic Crossing (AC-1) www.submarinesystems.com/tssl/newswire/netherlands.htm, downloaded 12/15/99. Gemini www.cwplc.com/press/1996/p96oct28.htm, downloaded 6/18/1998. Columbus III www.att.com/press/0298/980211.cia.html, downloaded 7/1/1998. Level 3 www.simplextech.com/news/pr990511.html, downloaded 12/01/1999. TAT-14 www.francetelecomna.com/nr/nr_prre/nr_prre_9-2-98_tat.htm, downloaded 12/14/1999. FLAG Atlantic - 1 www.flagatlantic.com/gts_and_flag_131099.htm, downloaded 12/14/1999. Hibernia Atlantic (formerly 360atlantic) www.worldwidefiber.com/html/news_14july1999.html, downloaded 11/29/1999. Tyco Atlantic n.a. Apollo www.techweb.com/wire/story/TWB20010112S0004, downloaded 10/15/2003. Americas - Operational: Americas I Application, filed on November 10, 1992, File No. ITC-93-030 TCS-1 5 FCC Rcd 101 (1990) Taino-Carb 7 FCC Rcd 4275 (1992) BAHAMAS II n.a. Antillas I n.a. Pan American Cable System www.twoten.press.net/stories/headlines/BUSINESS_mci_Cable.html, downloaded 2/27/98. Americas II www.investors.tycoint.com/news/19980302-5261.htm, downloaded 12/15/1999. -
Cyta's Telecommunications Hub in the Eastern Mediterranean
CARRIER SERVICES Cyta’s Telecommunications Hub in the Eastern Mediterranean – a Telecommunications Corridor between Europe and the Middle East By Mr Christos Limnatitis, Manager, National and International Wholesale Market antennas, providing connectivity with major satellite systems such as Intelsat, Eutelsat, SES, Hylas, Thor, AsiaSat and Arabsat. Services offered range from satellite television on a permanent and occasional basis to international telephony, monitoring services, data and internet connectivity. The teleports also offer VSAT services, hosting services to third parties and serve as a video head-end for Cyta’s IPTV offering in the Cyprus market. Cytaglobal is particularly active in the area of international undersea fibre optic cables, providing wholesale products and services on a global basis. Taking advantage of the island’s strategic geographical position, Cytaglobal has developed an extensive undersea fibre optic cable network, which connects Cyprus with its neighbouring countries of Greece, Italy, Israel, Syria, Lebanon and Egypt and thereafter with the rest of the world. This cable network, uses state-of-the-art technology By Mr Christos Limnatitis, and full restoration and diversity and includes the following Manager, National and International Wholesale Market submarine fibre optic cable systems that land in Cyprus, at three separate Cytaglobal cable landing stations, namely yta, the leading telecommunications operator Ayia Napa, Pentaskhinos and Yeroskipos: in Cyprus, provides the full spectrum of ARIEL – a private cable subsystem consisting of a fibre Cadvanced telecommunication products and pair between Cyprus and Israel providing connectivity to services, covering fixed and mobile voice and data Israel and extending beyond to Western Europe through communications, Internet, IPTV, broadband and other existing networks. -
Phylogenetic Analysis of Eurytominae (Chalcidoidea: Eurytomidae) Based on Morphological Characters
Blackwell Publishing LtdOxford, UKZOJZoological Journal of the Linnean Society0024-4082© 2007 The Linnean Society of London? 2007 1513 441510 Original Article PHYLOGENETIC ANALYSIS OF EURYTOMINAEH. LOTFALIZADEH ET AL. Zoological Journal of the Linnean Society, 2007, 151, 441–510. With 212 figures Phylogenetic analysis of Eurytominae (Chalcidoidea: Eurytomidae) based on morphological characters HOSSEINALI LOTFALIZADEH1, GÉRARD DELVARE2* and JEAN-YVES RASPLUS2 1Plant Pests and Diseases Research Institute, Evin, Tehran 19395–1454, Iran 2CIRAD – INRA, Centre de Biologie et de Gestion des Populations (CBGP), Campus International de Baillarguet, CS 30 016, F-34988 Montferrier-sur-Lez, France Received February 2006; accepted for publication December 2006 A phylogenetic study of the Eurytominae (Hymenoptera: Chalcidoidea) treating 178 taxa and based on 150 mor- phological characters is given. Several cladograms using the complete species sample, but obtained with different weightings, are presented. Local studies were also carried out to provide possible alternate topologies. The deep nodes of the trees were unstable and were never supported, but most of the superficial nodes were stable and robust. The results therefore provide support for a generic classification of the subfamily. The large genus Eurytoma – which includes about half of the described species of the subfamily – proved to be polyphyletic, and is redefined in a nar- rowed sense using putative synapomorphies. Bruchophagus and Prodecatoma were similarly redefined. The genera Philolema and Aximopsis are reconsidered and defined in a broader concept. A number of the species presently included in Eurytoma were transferred to these genera. Finally, 22 new generic synonymies are proposed and 33 spe- cies are transferred. The study also demonstrates that the Eurytomidae are polyphyletic. -
In This Issue: 11 Years All Optical Submarine Network Upgrades Of
66 n o v voice 2012 of the ISSn 1948-3031 Industry System Upgrades Edition In This Issue: 11 Years All Optical Submarine Network Upgrades of Upgrading Cables Systems? More Possibilities That You Originally Think Of! Excellence Reach, Reliability And Return On Investment: The 3R’s To Optimal Subsea Architecture Statistics Issue Issue Issue #64 Issue #3 #63 #2 Released Released Issue Released Released #65 Released 2 ISSN No. 1948-3031 PUBLISHER: Wayne Nielsen MANAGING EDITOR: Kevin G. Summers ovember in America is the month Forum brand which we will be rolling out we celebrate Thanksgiving. It during the course of the year, and which CONTRIBUTING WRITERS: Stewart Ash, is also the month SubTel Forum we believe will further enhance your James Barton, Bertrand Clesca, Dr Herve Fevrier, N Stephen Jarvis, Brian Lavallée, Pete LeHardy, celebrates our anniversary of existence, utility and enjoyment. We’re going to kick Vinay Rathore, Dr. Joerg Schwartz that now being 11 years going strong. it up a level or two, and think you will like the developments . And as always, it will Submarine Telecoms Forum magazine is When Ted and I established our little be done at no cost to our readers. published bimonthly by Submarine Telecoms magazine in 2001, our hope was to get Forum, Inc., and is an independent commercial enough interest to keep it going for a We will do so with two key founding publication, serving as a freely accessible forum for professionals in industries connected while. We had a list of contacts, an AOL principles always in mind, which annually with submarine optical fiber technologies and email address and a song in our heart; the I reaffirm to you, our readers: techniques. -
SUPPLY RECORD - REPEATERED SYSTEM ( 1 ) 1St Generation (Regenerator System Using 1.31 Micron Wavelength)
SUPPLY RECORD - REPEATERED SYSTEM ( 1 ) 1st Generation (Regenerator System using 1.31 micron wavelength) System Landing Countries Capacity Route Length Delivery Japan, U.S.A. (Guam, TPC-3 (Note 1) 560Mbps (280Mbps x 2fp) 3,760km Dec. 88 Hawaii) Hong Kong, Japan, Hong Kong-Japan-Korea 560Mbps (280Mbps x 2fp) 4,700km Apr. 90 Korea Kuantan-Kota Kinabaru Malaysia 840Mbps (420Mbps x 2fp) 1,570km Dec. 90 Japan, U.S.A. North Pacific Cable (NPC) 1680Mbps (420Mbps x 4fp) 9,400km Apr. 91 (Mainland) Surabaya-Banjarmasin Indonesia 280Mbps (280Mbps x 1fp) 410km Dec. 91 N. ote 1:The very first Branching Units deployed in the Pacific 1 SUPPLY RECORD - REPEATERED SYSTEM ( 2 ) 2nd Generation (Regenerator System using 1.55 micron wavelength) System Landing Sites Capacity Route Length Delivery UK-Germany No.5 (Note 2) UK, Germany 3.6Gbps (1.8Gbps x 2fp) 500km Oct. 91 Brunei-Singapore Brunei, Singapore 1120Mbps (560Mbps x 2fp) 1500km Nov. 91 Brunei, Malaysia, Brunei-Malaysia-Philippines (BMP) 1120Mbps (560Mbps x 2fp) 1500km Jan. 92 Philippines Japan, U.S.A. TPC-4 1680Mbps (560Mbps x 3fp) 5000km Oct. 92 (Mainland) Japan, Hong Kong, APC Taiwan, Malaysia, 1680Mbps (560Mbps x 3fp) 7600km Aug. 93 Singapore Malaysia-Thailand Malaysia, Thailand 1120Mbps (560Mbps x 2fp) 1500km Aug. 94 (incl. Petchaburi-Sri Racha) Russia-Japan-Korea (RJK) Russia, Japan, Korea 1120Mbps (560Mbps x 2fp) 1700km Nov. 94 Thailand, Vietnam, Thailand-Vietnam-Hong Kong (T-V-H) 1120Mbps (560Mbps x 2fp) 3400km Nov. 95 Hong Kong N. ote 2: The very first giga bit submarine cable system in the world 2 SUPPLY RECORD - REPEATERED SYSTEM ( 3 ) 3rd Generation (Optical Amplifier System) System Landing Sites Capacity Route Length Delivery Malaysia Domestic (Southern Link) Malaysia 10Gbps (5Gbps x 2fp) 2,300km Jul. -
Before the FEDERAL COMMUNICATIONS COMMISSION Washington, D.C
Before the FEDERAL COMMUNICATIONS COMMISSION Washington, D.C. In the Matter of EDGE CABLE HOLDINGS USA, LLC, File No. SCL-LIC-2020-____________ AQUA COMMS (AMERICAS) INC., AQUA COMMS (IRELAND) LIMITED, CABLE & WIRELESS AMERICAS SYSTEMS, INC., AND MICROSOFT INFRASTRUCTURE GROUP, LLC, Application for a License to Land and Operate a Private Fiber-Optic Submarine Cable System Connecting the United States, the United Kingdom, and France, to Be Known as THE AMITIÉ CABLE SYSTEM JOINT APPLICATION FOR CABLE LANDING LICENSE— STREAMLINED PROCESSING REQUESTED Pursuant to 47 U.S.C. § 34, Executive Order No. 10,530, and 47 C.F.R. § 1.767, Edge Cable Holdings USA, LLC (“Edge USA”), Aqua Comms (Americas) Inc. (“Aqua Comms Americas”), Aqua Comms (Ireland) Limited (“Aqua Comms Ireland,” together with Aqua Comms Americas, “Aqua Comms”), Cable & Wireless Americas Systems, Inc. (“CWAS”), and Microsoft Infrastructure Group, LLC (“Microsoft Infrastructure”) (collectively, the “Applicants”) hereby apply for a license to land and operate within U.S. territory the Amitié system, a private fiber-optic submarine cable network connecting the United States, the United Kingdom, and France. The Applicants and their affiliates will operate the Amitié system on a non-common-carrier basis, either by providing bulk capacity to wholesale and enterprise customers on particularized terms and conditions pursuant to individualized negotiations or by using the Amitié cable system to serve their own internal business connectivity needs. The existence of robust competition on U.S.-U.K., U.S.-France, and (more broadly) U.S.-Western Europe routes obviates any need for common-carrier regulation of the system on public-interest grounds. -
The Story of Subsea Telecommunications & Its
The Story of Subsea Telecommunications 02 & its Association with Enderby House By Stewart Ash INTRODUCTION The modern world of instant communications 1850 - 1950: the telegraph era began, not in the last couple of decades - but 1950 - 1986: the telephone era more than 160 years ago. Just over 150 years 1986 until today, and into the future: the optical era ago a Greenwich-based company was founded that became the dominant subsea cable system In the telegraph era, copper conductors could supplier of the telegraph era, and with its carry text only — usually short telegrams. During successors, helped to create the world we know the telephone era, technology had advanced today. enough for coaxial cables to carry up to 5,680 simultaneous telephone calls. And in today’s On 7 April 1864, the Telegraph Construction and optical era, fibres made of glass carry multi- Maintenance Company Ltd, better known for most wavelengths of laser light, providing terabits of of its life as Telcon, was incorporated and began its data for phone calls, text, internet pages, music, global communications revolution from a Thames- pictures and video. side site on the Greenwich Peninsula. Today, high capacity optic fibre subsea cables For more than 100 years, Telcon and its successors provide the arteries of the internet and are the were the world’s leading suppliers of subsea primary enablers of global electronic-commerce. telecommunications cable and, in 1950, dominated the global market, having manufactured and For over 160 years, the Greenwich peninsula has supplied 385,000 nautical miles (714,290km) of been at the heart of this technological revolution, cable, 82% of the total market. -
Creating Trust in Critical Network Infrastructures: Korean Case Study
INTERNATIONAL TELECOMMUNICATION UNION ITU WORKSHOP ON Document: CNI/05 CREATING TRUST IN CRITICAL 20 May 2002 NETWORK INFRASTRUCTURES Seoul, Republic of Korea — 20 - 22 May 2002 CREATING TRUST IN CRITICAL NETWORK INFRASTRUCTURES: KOREAN CASE STUDY Creating trust in critical network infrastructures: Korean case study This case study has been prepared by Dr. Chaeho Lim <[email protected]>. Dr Cho is Visiting Professor at the Korean Institute of Advanced Science & Technology, in the Infosec Education and Hacking, Virus Research Centre. This case study, Creating Trust in Critical Network Infrastructures: Korean Case Study, is part of a series of Telecommunication Case Studies produced under the New Initiatives programme of the Office of the Secretary General of the International Telecommunication Union (ITU). Other country case studies on Critical Network Infrastructures can be found at <http://www.itu.int/cni>. The opinions expressed in this study are those of the author and do not necessarily reflect the views of the International Telecommunication Union, its membership or the Korean Government. The author wishes to acknowledge Mr Chinyong Chong <[email protected]> of the Strategy and Policy Unit of ITU for contributions to the paper. The paper has been edited by the ITU secretariat. The author gratefully acknowledges the generous assistance of all those who have contributed information for this report. In particular, thanks are due to staff of Ministry of Information and Communication and Korean Information Security Agency for their help and suggestions. 2/27 Creating trust in critical network infrastructures: Korean case study TABLE OF CONTENTS Executive summary ......................................................................................................................................................... 4 1. Introduction............................................................................................................................................................. -
Interim Report on the Asian Telecom Connectivity Market
Asian Telecom Connectivity Market: Executive Summary (Research conducted 2005) The following is a summary of the findings of the Telecommunications Research Project University of Hong Kong NOTE1 The original research was undertaken for a private client in 2005 and the detailed report and recommendations are therefore not publicly available, but the following Executive Summary was made available at the time to companies who provided information and their opinions. In respect of demand and supply, the research goes beyond the data and analysis provided by TeleGeography (an industry benchmark publication) by estimating various rates of growth of demand against estimates of capacity lit and capacity used, thereby projecting various dates of capacity exhaustion. Unity Cable Since this research the 10,000 km Unity Cable connecting Japan and the USA has been announced (2008) consisting of carriers SingTel, Bharti- Airtel and KDDI, together with Internet companies Google, Pacnet and Global Transit (subsidiary of Malaysian network exchange company, AIMS). 1 This Executive Summary also appears as Appendix 2 in John Ure (ed.) Telecommunications Development in Asia, HKU Press, April 2008 1 Asian Telecom Connectivity Market: Executive Summary2 Between June and August 2005, the Telecommunications Research Project (TRP) at the University of Hong Kong undertook an extensive look at the regional bandwidth market. The research study was undertaken with intent to understand both the supply (and pricing) and demand sides of the equation, based upon feedback direct from carriers and experts, on the one hand, and from those directly purchasing bandwidth on the other. It quickly became apparent that the supply and demand of bandwidth represent two distinct stories which, not only are not necessarily in alignment (obvious enough to anyone who has been watching the market over the last 10 years), but are at times quite seriously disconnected in their fundamental drivers. -
KDDI Global ICT Brochure
https://global.kddi.com KDDI-Global Networks and IT Solutions Networking, Colocation, System Integration around the world BUILDING YOUR BUSINESS TOGETHER KDDI solutions are at the cutting-edge in all fields of information and communications KDDI, a Fortune Global 500 company, is one of Asia’s largest telecommunications providers, with approximately US$48 billion in annual revenue and a proven track record extending over many years and around the world. We deliver all-round services, from mobile phones to fixed-line communications, making us your one-stop solution provider for telecommunications and IT environments. The high praise and trust enjoyed by our TELEHOUSE data centers positioned around the world have kept us at the forefront of service and quality. Since our establishment in 1953, we have expanded our presence into 28 countries and 60 cities, with over 100 offices around the world supporting the success of our international customers through our high quality services. KDDI’s mobile telephone brand “au” has achieved significant market share in Japan, one of the world’s most comprehensive KDDI Quick Facts communications markets. KDDI’s relationship with over 600 carriers worldwide enables us to provide high-quality international network services in over 190 countries. Our exciting ventures, built on extensive experience, include investment in the “South-East Asia Japan 2 Cable”, which connects 11 locations in 9 countries and territories in Asia. Moreover, as the world moves toward the age of IoT and 5G, KDDI is taking steps to promote IoT business, such as connected cars, support for companies engaged in global business, and the creation of new value for our society.