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Home  »  The World Factbook, 2008  »  Telephone system

The World Factbook. 2008.

Telephone system

CountryTelephone system
Afghanistangeneral assessment: limited landline telephone service; an increasing number of Afghans utilize mobile-cellular phone networks in major cities
domestic: aided by the presence of multiple providers, mobile-cellular telephone service is improving rapidly
international: country code – 93; five VSAT’s installed in Kabul, Herat, Mazar-e-Sharif, Kandahar, and Jalalabad provide international and domestic voice and data connectivity (2007)
Albaniageneral assessment: despite new investment in fixed lines, the density of main lines remains low with roughly 10 lines per 100 people; however, cellular telephone use is widespread and generally effective; combined fixed line and mobile telephone density is approximately 60 telephones per 100 persons
domestic: offsetting the shortage of fixed line capacity, mobile phone service has been available since 1996; by 2003 two companies were providing mobile services at a greater density than some of Albania’s Balkan neighbors; Internet broadband services initiated in 2005; internet cafes are popular in Tirana and have started to spread outside the capital
international: country code – 355; submarine cable provides connectivity to Italy, Croatia, and Greece; the Trans-Balkan Line, a combination submarine cable and land fiber optic system, provides additional connectivity to Bulgaria, Macedonia, and Turkey; international traffic carried by fiber-optic cable and, when necessary, by microwave radio relay from the Tirana exchange to Italy and Greece (2007)
Algeriageneral assessment: a weak network of fixed-main lines, which remains low at less than 10 telephones per 100 persons, is partially offset by the rapid increase in mobile cellular subscribership; in 2006, combined fixed-line and mobile telephone density surpassed 70 telephones per 100 persons
domestic: privatization of Algeria’s telecommunications sector began in 2000; three mobile cellular licenses have been issued and, in 2005, a consortium led by Egypt’s Orascom Telecom won a 15-year license to build and operate a fixed-line network in Algeria; the license will allow Orascom to develop high-speed data and other specialized services and contribute to meeting the large unfulfilled demand for basic residential telephony; internet broadband services began in 2003 with approximately 200,000 subscribers in 2006
international: country code – 213; landing point for the SEA-ME-WE-4 fiber- optic submarine cable system that provides links to Europe, the Middle East and Asia; microwave radio relay to Italy, France, Spain, Morocco, and Tunisia; coaxial cable to Morocco and Tunisia; participant in Medarabtel; satellite earth stations – 51 (Intelsat, Intersputnik, and Arabsat) (2007)
American Samoageneral assessment: NA
domestic: good telex, telegraph, facsimile and cellular telephone services; domestic satellite system with 1 Comsat earth station
international: country code – 1-684; satellite earth station – 1 (Intelsat-Pacific Ocean)
Andorrageneral assessment: NA
domestic: modern system with microwave radio relay connections between exchanges
international: country code – 376; landline circuits to France and Spain
Angolageneral assessment: system inadequate; fewer than one fixed-line per 100 persons; combined fixed line and mobile telephone density approached 20 telephones per 100 persons in 2006
domestic: state-owned telecom had monopoly for fixed-lines until 2005; demand outstripped capacity and prices were high and services poor; Telecom Namibia, through an Angolan company, became the first private licensed operator in Angola’s fixed-line telephone network; Angola Telecom established mobile-cellular service in Luanda in 1993 and the network has been extended to larger towns; a privately-owned, mobile-cellular service provider began operations in 2001
international: country code – 244; landing point for the SAT-3/WASC fiber-optic submarine cable that provides connectivity to Europe and Asia; satellite earth stations – 29 (2007)
Anguillageneral assessment: NA
domestic: modern internal telephone system
international: country code – 1-264; landing point for the East Caribbean Fiber System (ECFS) optic submarine cable with links to 13 other islands in the eastern Caribbean extending from the British Virgin Islands to Trinidad; microwave radio relay to island of Saint Martin (Guadeloupe and Netherlands Antilles) (2007)
Antarcticageneral assessment: local systems at some research stations
domestic: commercial cellular networks operating in a small number of locations
international: country code – 672; via satellite (including mobile Inmarsat and Iridium systems) from all research stations, ships, aircraft, and most field parties (2001)
Antigua and Barbudageneral assessment: NA
domestic: good automatic telephone system
international: country code – 1-268; landing point for the East Caribbean Fiber System (ECFS) optic submarine cable with links to 13 other islands in the eastern Caribbean extending from the British Virgin Islands to Trinidad; satellite earth station – 2; tropospheric scatter to Saba (Netherlands Antilles) and Guadeloupe (2007)
Argentinageneral assessment: by opening the telecommunications market to competition and foreign investment with the “Telecommunications Liberalization Plan of 1998,” Argentina encouraged the growth of modern telecommunications technology; fiber-optic cable trunk lines are being installed between all major cities; the major networks are entirely digital and the availability of telephone service is improving; fixed-line telephone density is gradually increasing reaching nearly 25 lines per 100 people in 2006; mobile telephone density has been increasing rapidly and has reached a level of 80 telephones per 100 persons
domestic: microwave radio relay, fiber-optic cable, and a domestic satellite system with 40 earth stations serve the trunk network; more than 110,000 pay telephones are installed and mobile telephone use is rapidly expanding; broadband services are gaining ground
international: country code – 54; landing point for the Atlantis-2, UNISUR, and South America-1 optical submarine cable systems that provide links to Europe, Africa, South and Central America, and US; satellite earth stations – 112; 2 international gateways near Buenos Aires (2007)
Armeniageneral assessment: telecommunications investments have made major inroads in modernizing and upgrading the outdated telecommunications network inherited from the Soviet era; now 100% privately owned and undergoing modernization and expansion; mobile-cellular services monopoly terminated in late 2004 and a second provider began operations in mid-2005
domestic: reliable modern landline and mobile-cellular services are available across Yerevan in major cities and towns; significant, but ever-shrinking gaps remain in mobile-cellular coverage in rural areas
international: country code – 374; Yerevan is connected to the Trans-Asia-Europe fiber-optic cable through Iran; additional international service is available by microwave radio relay and landline connections to the other countries of the Commonwealth of Independent States and through the Moscow international switch and by satellite to the rest of the world; satellite earth stations – 3 (2007)
Arubageneral assessment: modern fully automatic telecommunications system
domestic: increased competition through privatization; 3 wireless service providers are now licensed
international: country code – 297; landing site for the PAN-AM submarine telecommunications cable system that extends from the US Virgin Islands through Aruba to Venezuela, Colombia, Panama, and the west coast of South America; extensive interisland microwave radio relay links (2007)
Australiageneral assessment: excellent domestic and international service
domestic: domestic satellite system; much use of radiotelephone in areas of low population density; rapid growth of mobile cellular telephones
international: country code – 61; landing point for the SEA-ME-WE-3 optical telecommunications submarine cable with links to Asia, the Middle East, and Europe; the Southern Cross fiber optic submarine cable provides links to New Zealand and the United States; satellite earth stations – 19 (10 Intelsat – 4 Indian Ocean and 6 Pacific Ocean, 2 Inmarsat – Indian and Pacific Ocean regions, 2 Globalstar, 5 other) (2007)
Austriageneral assessment: highly developed and efficient
domestic: fixed-line subscribership has been in decline since the mid-1990s with mobile-cellular subscribership elipsing it by the late 1990s; the fiber-optic net is very extensive; all telephone applications and Internet services are available
international: country code – 43; satellite earth stations – 15; in addition, there are about 600 VSATs (very small aperture terminals) (2007)
Azerbaijangeneral assessment: inadequate; requires considerable expansion and modernization; teledensity of 15 main lines per 100 persons is low; mobile cellular penetration is increasing and is currently about 40 telephones per 100 persons
domestic: fixed-line telephony and a broad range of other telecom services are controlled by a state-owned telecoms monopoly and growth has been stagnant; more competition exists in the mobile-cellular market with three providers in 2006; satellite service connects Baku to a modern switch in its exclave of Naxcivan
international: country code – 994; the old Soviet system of cable and microwave is still serviceable; satellite earth stations – 2 (2007)
Bahamas, Thegeneral assessment: modern facilities
domestic: totally automatic system; highly developed; the Bahamas Domestic Submarine Network links 14 of the islands and is designed to satisfy increasing demand for voice and broadband internet services
international: country code – 1-242; landing point for the Americas Region Caribbean Ring System (ARCOS-1) fiber-optic submarine cable that provides links to South and Central America, parts of the Caribbean, and the US; satellite earth station – 2 (2007)
Bahraingeneral assessment: modern system
domestic: modern fiber-optic integrated services; digital network with rapidly growing use of mobile-cellular telephones
international: country code – 973; landing point for the Fiber-Optic Link Around the Globe (FLAG) submarine cable network that provides links to Asia, Middle East, Europe, and US; tropospheric scatter to Qatar and UAE; microwave radio relay to Saudi Arabia; satellite earth stations – 1 (2007)
Bangladeshgeneral assessment: totally inadequate for a modern country; fixed-line telephone density of less than 1 per 100 persons; mobile-cellular telephone density of 13 per 100 persons
domestic: modernizing; introducing digital systems; trunk systems include VHF and UHF microwave radio relay links, and some fiber-optic cable in cities
international: country code – 880; landing point for the SEA-ME-WE-4 fiber-optic submarine cable system that provides links to Europe, the Middle East and Asia; satellite earth stations – 6; international radiotelephone communications and landline service to neighboring countries (2007)
Barbadosgeneral assessment: fixed-line teledensity of roughly 50 per 100 persons; mobile-cellular telephone density of 75 per 100 persons
domestic: island-wide automatic telephone system
international: country code – 1-246; landing point for the East Caribbean Fiber System (ECFS) optic submarine cable with links to 13 other islands in the eastern Caribbean extending from the British Virgin Islands to Trinidad; satellite earth stations – 1 (Intelsat -Atlantic Ocean); tropospheric scatter to Trinidad and Saint Lucia (2007)
Belarusgeneral assessment: Belarus lags behind its neighbors in upgrading telecommunications infrastructure; state-owned Beltelcom is the sole provider of fixed-line local and long distance service; fixed-line teledensity of 33 per 100 persons; mobile-cellular telephone density of 58 per 100 persons; modernization of the network progressing with roughly two-thirds of switching equipment now digital
domestic: fixed-line penetration is improving although rural areas continue to be underserved; 4 GSM wireless networks are experiencing rapid growth; strict government controls on telecommunications technologies
international: country code – 375; Belarus is a member of the Trans-European Line (TEL), Trans-Asia-Europe (TAE) fiber-optic line, and has access to the Trans-Siberia Line (TSL); 3 fiber-optic segments provide connectivity to Latvia, Poland, Russia, and Ukraine; worldwide service is available to Belarus through this infrastructure; additional analog lines to Russia; Intelsat, Eutelsat, and Intersputnik earth stations (2007)
Belgiumgeneral assessment: highly developed, technologically advanced, and completely automated domestic and international telephone and telegraph facilities
domestic: nationwide cellular telephone system; extensive cable network; limited microwave radio relay network
international: country code – 32; landing point for a number of submarine cables that provide links to Europe, the Middle East, and Asia; satellite earth stations – 7 (Intelsat – 3) (2007)
Belizegeneral assessment: above-average system; fixed-line teledensity of 12 per 100 persons; mobile-cellular telephone density of about 40 per 100 persons
domestic: trunk network depends primarily on microwave radio relay
international: country code – 501; landing point for the Americas Region Caribbean Ring System (ARCOS-1) fiber-optic telecommunications submarine cable that provides links to South and Central America, parts of the Caribbean, and the US; satellite earth station – 8 (Intelsat – 2, unknown – 6) (2007)
Beningeneral assessment: inadequate; fixed-line network is almost saturated with fixed-line teledensity stuck at a meager 1 per 100 persons; mobile-cellular telephone subscribership is increasing
domestic: fair system of open-wire, microwave radio relay, and cellular connections; four mobile-cellular providers
international: country code – 229; landing point for the SAT-3/WASC fiber-optic submarine cable that provides connectivity to Europe and Asia; satellite earth station – 7 (Intelsat-Atlantic Ocean) (2007)
Bermudageneral assessment: good
domestic: fully automatic digital telephone system; fiber-optic trunk lines
international: country code – 1-441; landing point for the Atlantica-1 telecommunications submarine cable that extends from the US to Brazil; satellite earth stations – 3 (2007)
Bhutangeneral assessment: urban towns and district headquarters have telecommunications services
domestic: very low teledensity; domestic service is very poor especially in rural areas; wireless service available since 2003
international: country code – 975; international telephone and telegraph service via landline and microwave relay through India; satellite earth station – 1 Intelsat (2007)
Boliviageneral assessment: privatization beginning in 1995; reliability has steadily improved; new subscribers face bureaucratic difficulties; most telephones are concentrated in La Paz and other cities; mobile- cellular telephone use expanding rapidly; fixed-line teledensity of 7 per 100 persons; mobile-cellular telephone density of 27 per 100 persons
domestic: primary trunk system, which is being expanded, employs digital microwave radio relay; some areas are served by fiber-optic cable; mobile cellular systems are being expanded
international: country code – 591; satellite earth station – 1 Intelsat (Atlantic Ocean) (2007)
Bosnia and Herzegovinageneral assessment: telephone and telegraph network needs modernization and expansion; many urban areas are below average as contrasted with services in other former Yugoslav republics
domestic: fixed-line teledensity is roughly 20 per 100 persons; mobile-cellular telephone density is about 22 per 100 persons
international: country code – 387; no satellite earth stations (2006)
Botswanageneral assessment: the system is expanding with the growth of mobile-cellular service and participation in regional development; system is fully digital with fiber-optic cables linking the major population centers in the east; fixed-line connections declined in recent years and now stand at 8 per 100 persons; mobile-cellular telephone density currently is about 60 per 100 persons
domestic: small system of open-wire lines, microwave radio relay links, and a few radiotelephone communication stations; mobile-cellular service is growing fast
international: country code – 267; international calls are made via satellite, using international direct dialing; 2 international exchanges; digital microwave radio relay links to Namibia, Zambia, Zimbabwe, and South Africa; satellite earth station – 1 Intelsat (Indian Ocean) (2007)
Brazilgeneral assessment: good working system; fixed-line connections have remained relatively stable in recent years and stand at about 20 per 100 persons; mobile-cellular telephone density has risen to nearly 55 per 100 persons
domestic: extensive microwave radio relay system and a domestic satellite system with 64 earth stations; mobile-cellular usage has more than tripled in the past 5 years
international: country code – 55; landing point for a number of submarine cables that provide direct links to South and Central America, the Caribbean, the US, Africa, and Europe; satellite earth stations – 3 Intelsat (Atlantic Ocean), 1 Inmarsat (Atlantic Ocean region east), connected by microwave relay system to Mercosur Brazilsat B3 satellite earth station (2007)
British Indian Ocean Territorygeneral assessment: separate facilities for military and public needs are available
domestic: all commercial telephone services are available, including connection to the Internet
international: country code (Diego Garcia) – 246; international telephone service is carried by satellite (2000)
British Virgin Islandsgeneral assessment: worldwide telephone service
domestic: NA
international: country code – 1-284; connected via submarine cable to Bermuda; the East Caribbean Fiber System (ECFS) optic submarine cable provides connectivity to 13 other islands in the eastern Caribbean (2007)
Bruneigeneral assessment: service throughout the country is excellent; international service is good to Southeast Asia, Middle East, Western Europe, and the US
domestic: every service available
international: country code – 673; landing point for the SEA-ME-WE-3 optical telecommunications submarine cable that provides links to Asia, the Middle East, and Europe; the Asia-America Gateway submarine cable network, scheduled for completion by late 2008, will provide new links to Asia and the US; satellite earth stations – 2 Intelsat (1 Indian Ocean and 1 Pacific Ocean) (2007)
Bulgariageneral assessment: an extensive but antiquated telecommunications network inherited from the Soviet era; quality has improved; the Bulgaria Telecommunications Company’s fixed-line monopoly terminated in 2005 when alternative fixed-line operators were given access to its network; a drop in fixed-line connections in recent years has been offset by a sharp increase in mobile-cellular telephone use fostered by multiple service providers
domestic: a fairly modern digital cable trunk line now connects switching centers in most of the regions; the others are connected by digital microwave radio relay
international: country code – 359; submarine cable provides connectivity to Ukraine and Russia; a combination submarine cable and land fiber-optic system provides connectivity to Italy, Albania, and Macedonia; satellite earth stations – 1 Intersputnik (Atlantic Ocean region); 2 Intelsat (Atlantic and Indian Ocean regions) (2007)
Burkina Fasogeneral assessment: services only fair; in 2006 the government sold a 51 percent stake in the national telephone company and ultimately plans to retain only a 23 percent stake in the company; fixed-line connections stand at less than 1 per 100 persons; mobile-cellular usage, fostered by multiple providers, is increasing rapidly from a low base
domestic: microwave radio relay, open-wire, and radiotelephone communication stations
international: country code – 226; satellite earth station – 1 Intelsat (Atlantic Ocean) (2007)
Burmageneral assessment: meets minimum requirements for local and intercity service for business and government; international service is good
domestic: system capable of providing basic service; cellular mobile phone system functions more efficiently than traditional lines
international: country code – 95; landing point for the SEA-ME-WE-3 optical telecommunications submarine cable that provides links to Asia, the Middle East, and Europe; satellite earth stations – 2, Intelsat (Indian Ocean), and ShinSat (2007)
Burundigeneral assessment: primitive system; telephone density one of the lowest in the world; fixed-line connections stand at well less than 1 per 100 persons; mobile-cellular usage is increasing but remains at a meager 2 per 100 persons
domestic: sparse system of open-wire, radiotelephone communications, and low-capacity microwave radio relay
international: country code – 257; satellite earth station – 1 Intelsat (Indian Ocean) (2007)
Cambodiageneral assessment: mobile-phone systems are widely used in urban areas to bypass deficiencies in the fixed-line network; fixed-line connections stand at well less than 1 per 100 persons; mobile-cellular usage, aided by increasing competition among service providers, is increasing and stands at about 8 per 100 persons
domestic: adequate landline and/or cellular service in Phnom Penh and other provincial cities; mobile-phone coverage is rapidly expanding in rural areas
international: country code – 855; adequate but expensive landline and cellular service available to all countries from Phnom Penh and major provincial cities; satellite earth station – 1 Intersputnik (Indian Ocean region) (2007)
Cameroongeneral assessment: fixed-line connections stand at less than 1 per 100 persons; equipment is old and outdated, and connections with many parts of the country are unreliable; mobile-cellular usage, in part a reflection of the poor condition and general inadequacy of the fixed-line network, has been increasing steadily and currently stands at 14 per 100 persons
domestic: cable, microwave radio relay, and tropospheric scatter
international: country code – 237; landing point for the SAT-3/WASC fiber-optic submarine cable that provides connectivity to Europe and Asia; satellite earth stations – 2 Intelsat (Atlantic Ocean) (2007)
Canadageneral assessment: excellent service provided by modern technology
domestic: domestic satellite system with about 300 earth stations
international: country code – 1; submarine cables provide links to the US and Europe; satellite earth stations – 5 Intelsat (4 Atlantic Ocean and 1 Pacific Ocean) and 2 Intersputnik (Atlantic Ocean region) (2007)
Cape Verdegeneral assessment: effective system, extensive modernization from 1996-2000 following partial privatization in 1995
domestic: major service provider is Cabo Verde Telecom (CVT); fiber-optic ring, completed in 2001, links all islands providing Internet access and ISDN services; cellular service introduced in 1998; broadband services launched in 2004
international: country code – 238; landing point for the Atlantis-2 fiber-optic transatlantic telephone cable that provides links to South America, Senegal, and Europe; HF radiotelephone to Senegal and Guinea-Bissau; satellite earth station – 1 Intelsat (Atlantic Ocean) (2007)
Cayman Islandsgeneral assessment: reasonably good system
domestic: liberalization of telecom market in 2003; introduction of competition in the mobile-cellular market in 2004
international: country code – 1-345; landing point for the MAYA-1 submarine telephone cable network that provides links to the US and parts of Central and South America; submarine cable provides connectivity to Jamaica; satellite earth station – 1 Intelsat (Atlantic Ocean) (2007)
Central African Republicgeneral assessment: limited telephone service; fixed-line connections for well less than 1 per 100 persons coupled with mobile-cellular usage of only about 3 per 100 persons
domestic: network consists principally of microwave radio relay and low-capacity, low-powered radiotelephone communication
international: country code – 236; satellite earth station – 1 Intelsat (Atlantic Ocean) (2007)
Chadgeneral assessment: primitive system with high costs and low telephone density
domestic: fair system of radiotelephone communication stations
international: country code – 235; satellite earth station – 1 Intelsat (Atlantic Ocean) (2007)
Chilegeneral assessment: privatization began in 1988; advanced telecommunications infrastructure; modern system based on extensive microwave radio relay facilities; fixed-line connections have dropped in recent years as mobile-cellular usage continues to increase, reaching a level of 75 telephones per 100 persons
domestic: extensive microwave radio relay links; domestic satellite system with 3 earth stations
international: country code – 56; submarine cables provide links to the US and to Central and South America; satellite earth stations – 2 Intelsat (Atlantic Ocean) (2007)
Chinageneral assessment: domestic and international services are increasingly available for private use; unevenly distributed domestic system serves principal cities, industrial centers, and many towns; China continues to develop its telecommunications infrastructure, and is partnering with foreign providers to expand its global reach; 3 of China’s 6 major telecommunications operators are part of an international consortium which, in December 2006, signed an agreement with Verizon Business to build the first next-generation fiber optic submarine cable system directly linking the US mainland and China
domestic: interprovincial fiber-optic trunk lines and cellular telephone systems have been installed; mobile-cellular subscribership is increasing rapidly; the number of internet users reached 162 million in 2007; a domestic satellite system with 55 earth stations is in place
international: country code – 86; a number of submarine cables provide connectivity to Asia, the Middle East, Europe, and the US; satellite earth stations – 5 Intelsat (4 Pacific Ocean and 1 Indian Ocean), 1 Intersputnik (Indian Ocean region) and 1 Inmarsat (Pacific and Indian Ocean regions) (2007)
Christmas Islandgeneral assessment: service provided by the Australian network
domestic: GSM mobile telephone service replaced older analog system in February 2005
international: country code – 61-8; satellite earth stations – 1 INTELSAT earth station provides telephone and telex service (2005)
Cocos (Keeling) Islandsgeneral assessment: connected within Australia’s telecommunication system
domestic: NA
international: country code – 61; telephone, telex, and facsimile communications with Australia and elsewhere via satellite; 1 INTELSAT satellite earth station (2001)
Colombiageneral assessment: modern system in many respects; telecommunications sector liberalized during the 1990s; multiple providers of both fixed-line and mobile-cellular services; fixed-line connections stand at about 18 per 100 persons; mobile cellular usage is about 70 per 100 persons
domestic: nationwide microwave radio relay system; domestic satellite system with 41 earth stations; fiber-optic network linking 50 cities
international: country code – 57; submarine cables provide links to the US, parts of the Caribbean, and Central and South America; satellite earth stations – 6 Intelsat, 1 Inmarsat; 3 fully digitalized international switching centers (2007)
Comorosgeneral assessment: sparse system of microwave radio relay and HF radiotelephone communication stations; fixed-line connections only about 2 per 100 persons; mobile cellular usage about 2 per 100 persons
domestic: HF radiotelephone communications and microwave radio relay
international: country code – 269; HF radiotelephone communications to Madagascar and Reunion
Congo, Democratic Republic of thegeneral assessment: Inadequate; state-owned fixed-line operator has been unable to expand fixed-line connections and there are now fewer than 10,000 connections; given the backdrop of a wholly inadequate fixed-line infrastructure, the use of cellular services has surged and subscribership now exceeds 4 million – roughly 7 per 100 persons
domestic: barely adequate wire and microwave radio relay service in and between urban areas; domestic satellite system with 14 earth stations
international: country code – 243; satellite earth station – 1 Intelsat (Atlantic Ocean) (2007)
Congo, Republic of thegeneral assessment: services barely adequate for government use; key exchanges are in Brazzaville, Pointe-Noire, and Loubomo; intercity lines frequently out of order; fixed-line infrastructure inadequate providing less than 1 connection per 100 persons; mobile-cellular subscribership has surged reaching 16 per 100 persons
domestic: primary network consists of microwave radio relay and coaxial cable
international: country code – 242; satellite earth station – 1 Intelsat (Atlantic Ocean)
Cook Islandsgeneral assessment: Telecom Cook Islands offers international direct dialing, Internet, email, fax, and Telex
domestic: the individual islands are connected by a combination of satellite earth stations, microwave systems, and VHF and HF radiotelephone; within the islands, service is provided by small exchanges connected to subscribers by open-wire, cable, and fiber-optic cable
international: country code – 682; satellite earth station – 1 Intelsat (Pacific Ocean)
Costa Ricageneral assessment: good domestic telephone service in terms of breadth of coverage; restricted cellular telephone service; state-run monopoly provider is struggling with the demand for new lines, resulting in long waiting times
domestic: point-to-point and point-to-multi-point microwave, fiber-optic, and coaxial cable link rural areas; Internet service is available
international: country code – 506; landing point for the Americas Region Caribbean Ring System (ARCOS-1) fiber-optic telecommunications submarine cable and the MAYA-1 submarine cable that provide links to South and Central America, parts of the Caribbean, and the US; connected to Central American Microwave System; satellite earth stations – 2 Intelsat (Atlantic Ocean) (2007)
Cote d’Ivoiregeneral assessment: well developed by African standards; telecommunications sector privatized in late 1990s; mobile cellular usage has increased to 23 per 100 persons; fixed-line connections stand at about 2 per 100 persons
domestic: open-wire lines and microwave radio relay; 90% digitalized
international: country code – 225; landing point for the SAT-3/WASC fiber-optic submarine cable that provides connectivity to Europe and Asia; satellite earth stations – 2 Intelsat (1 Atlantic Ocean and 1 Indian Ocean) (2007)
Croatiageneral assessment: the telecommunications network has improved steadily since the mid-1990s; the number of fixed telephone lines has increased to about 40 per 100 persons; virtually 100 mobile cellular telephones per 100 persons
domestic: more than 90 percent of local lines are digital
international: country code – 385; digital international service is provided through the main switch in Zagreb; Croatia participates in the Trans-Asia-Europe (TEL) fiber-optic project, which consists of 2 fiber-optic trunk connections with Slovenia and a fiber-optic trunk line from Rijeka to Split and Dubrovnik; the ADRIA-1 submarine cable provides connectivity to Albania and Greece (2007)
Cubageneral assessment: greater investment beginning in 1994 and the establishment of a new Ministry of Information Technology and Communications in 2000 has resulted in improvements in the system; wireless service is expensive and must be paid in convertible pesos which effectively limits mobile cellular subscribership
domestic: national fiber-optic system under development; 95% of switches digitized by end of 2006; fixed telephone line density remains low, at less than 10 per 100 inhabitants; domestic cellular service expanding but remains at only about 2 per 100 persons
international: country code – 53; fiber-optic cable laid to but not linked to US network; satellite earth station – 1 Intersputnik (Atlantic Ocean region)
Cyprusgeneral assessment: excellent in both area under government control and area administered by Turkish Cypriots
domestic: open-wire, fiber-optic cable, and microwave radio relay
international: country code – 357 (area administered by Turkish Cypriots uses the country code of Turkey – 90); a number of submarine cables, including the SEA-ME-WE-3, combine to provide connectivity to Western Europe, the Middle East, and Asia; tropospheric scatter; satellite earth stations – 3 Intelsat (1 Atlantic Ocean and 2 Indian Ocean), 2 Eutelsat, 2 Intersputnik, and 1 Arabsat
Czech Republicgeneral assessment: privatization and modernization of the Czech telecommunication system got a late start but is advancing steadily; access to the fixed-line telephone network expanded throughout the 1990s; mobile telephone usage increased sharply beginning in the mid-1990s and there are now about 120 mobile telephones per 100 persons
domestic: 93% of exchanges now digital; existing copper subscriber systems enhanced with Asymmetric Digital Subscriber Line (ADSL) equipment to accommodate Internet and other digital signals; trunk systems include fiber-optic cable and microwave radio relay
international: country code – 420; satellite earth stations – 2 Intersputnik (Atlantic and Indian Ocean regions), 1 Intelsat, 1 Eutelsat, 1 Inmarsat, 1 Globalstar (2007)
Denmarkgeneral assessment: excellent telephone and telegraph services
domestic: buried and submarine cables and microwave radio relay form trunk network, 4 cellular mobile communications systems
international: country code – 45; a series of fiber-optic submarine cables link Denmark with Canada, Faroe Islands, Germany, Iceland, Netherlands, Norway, Poland, Russia, Sweden, and UK; satellite earth stations – 6 Intelsat, 10 Eutelsat, 1 Orion, 1 Inmarsat (Blaavand-Atlantic-East); note – the Nordic countries (Denmark, Finland, Iceland, Norway, and Sweden) share the Danish earth station and the Eik, Norway, station for worldwide Inmarsat access
Djiboutigeneral assessment: telephone facilities in the city of Djibouti are adequate, as are the microwave radio relay connections to outlying areas of the country
domestic: microwave radio relay network; mobile cellular coverage is limited to the area in and around Djibouti city
international: country code – 253; landing point for the SEA-ME-WE-3 optical telecommunications submarine cable with links to Asia, the Middle East, and Europe; satellite earth stations – 1 Intelsat (Indian Ocean) and 1 Arabsat; Medarabtel regional microwave radio relay telephone network
Dominicageneral assessment: NA
domestic: fully automatic network
international: country code – 1-767; landing point for the East Caribbean Fiber Optic System (ECFS) submarine cable with links to 13 other islands in the eastern Caribbean extending from the British Virgin Islands to Trinidad; microwave radio relay and SHF radiotelephone links to Martinique and Guadeloupe; VHF and UHF radiotelephone links to Saint Lucia
Dominican Republicgeneral assessment: relatively efficient system based on island-wide microwave radio relay network
domestic: fixed telephone line density is about 10 per 100 persons; multiple providers of mobile cellular service with a subscribership of roughly 50 per 100 persons
international: country code – 1-809; landing point for the Americas Region Caribbean Ring System (ARCOS-1) fiber-optic telecommunications submarine cable that provides links to South and Central America, parts of the Caribbean, and US; satellite earth station – 1 Intelsat (Atlantic Ocean)
Ecuadorgeneral assessment: generally elementary but being expanded
domestic: fixed-line services provided by three state-owned enterprises; plans to transfer the state-owned operators to private ownership have repeatedly failed; fixed-line density stands at about 13 per 100 persons; mobile cellular use has surged and has a subscribership of nearly 65 per 100 persons
international: country code – 593; landing point for the PAN-AM submarine telecommunications cable that provides links to the west coast of South America, Panama, Colombia, Venezuela, and extending onward to Aruba and the US Virgin Islands in the Caribbean; satellite earth station – 1 Intelsat (Atlantic Ocean) (2007)
Egyptgeneral assessment: large system; underwent extensive upgrading during 1990s and is reasonably modern; Telecom Egypt, the landline monopoly, has been increasing service availability and in 2006 fixed-line density stood at 14 per 100 persons; as of 2007 there were three mobile-cellular networks and service is expanding rapidly
domestic: principal centers at Alexandria, Cairo, Al Mansurah, Ismailia, Suez, and Tanta are connected by coaxial cable and microwave radio relay
international: country code – 20; landing point for both the SEA-ME-WE-3 AND SEA-ME-WE-4 submarine cable networks; linked to the international submarine cable FLAG (Fiber-Optic Link Around the Globe); satellite earth stations – 2 Intelsat (Atlantic Ocean and Indian Ocean), 1 Arabsat, and 1 Inmarsat; tropospheric scatter to Sudan; microwave radio relay to Israel; a participant in Medarabtel
El Salvadorgeneral assessment: the four mobile-cellular service providers are expanding services rapidly and in 2006 mobile-cellular density stood at roughly 55 per 100 persons; growth in fixed-line services has slowed in the face of mobile-cellular competition
domestic: nationwide microwave radio relay system
international: country code – 503; satellite earth station – 1 Intelsat (Atlantic Ocean); connected to Central American Microwave System
Equatorial Guineageneral assessment: digital fixed-line network in most major urban areas and good mobile coverage
domestic: fixed-line density is about 2 per 100 persons; mobile-cellular subscribership has been increasing and in 2005 stood at about 20 percent of the population
international: country code – 240; international communications from Bata and Malabo to African and European countries; satellite earth station – 1 Intelsat (Indian Ocean)
Eritreageneral assessment: inadequate
domestic: inadequate; most telephones are in Asmara; government is seeking international tenders to improve the system (2002)
international: country code – 291; note – international connections exist
Estoniageneral assessment: foreign investment in the form of joint business ventures greatly improved telephone service; substantial fiber-optic cable systems carry telephone, TV, and radio traffic in the digital mode; Internet services are widely available; schools and libraries are connected to the internet, a large percentage of the population files income-tax returns online, and online voting was used for the first time in the 2005 local elections
domestic: a wide range of high quality voice, data, and Internet services is available throughout the country
international: country code – 372; fiber-optic cables to Finland, Sweden, Latvia, and Russia provide worldwide packet-switched service; 2 international switches are located in Tallinn (2001)
Ethiopiageneral assessment: inadequate telephone system; the number of fixed lines and mobile telephones is increasing from a very small base; combined fixed and mobile-cellular teledensity is only about 2 per 100 persons
domestic: open-wire; microwave radio relay; radio communication in the HF, VHF, and UHF frequencies; 2 domestic satellites provide the national trunk service
international: country code – 251; open-wire to Sudan and Djibouti; microwave radio relay to Kenya and Djibouti; satellite earth stations – 3 Intelsat (1 Atlantic Ocean and 2 Pacific Ocean)
European Unionnote – see individual country entries of member states
Falkland Islands (Islas Malvinas)general assessment: NA
domestic: government-operated radiotelephone and private VHF/CB radiotelephone networks provide effective service to almost all points on both islands
international: country code – 500; satellite earth station – 1 Intelsat (Atlantic Ocean) with links through London to other countries
Faroe Islandsgeneral assessment: good international communications; good domestic facilities
domestic: digitalization was completed in 1998; both NMT (analog) and GSM (digital) mobile telephone systems are installed
international: country code – 298; satellite earth stations – 1 Orion; 1 fiber-optic submarine cable to the Shetland Islands, linking the Faroe Islands with Denmark and Iceland; fiber-optic submarine cable connection to Canada-Europe cable
Fijigeneral assessment: modern local, interisland, and international (wire/radio integrated) public and special-purpose telephone, telegraph, and teleprinter facilities; regional radio communications center
domestic: telephone or radio telephone links to almost all inhabited islands; most towns and large villages have automatic telephone exchanges and direct dialing; combined fixed and mobile-cellular density is about 35 per 100 persons
international: country code – 679; access to important cable links between US and Canada as well as between NZ and Australia; satellite earth stations – 2 Inmarsat (Pacific Ocean)
Finlandgeneral assessment: modern system with excellent service
domestic: digital fiber-optic fixed-line network and an extensive cellular network provide domestic needs
international: country code – 358; submarine cables provide links to Estonia and Sweden; satellite earth stations – access to Intelsat transmission service via a Swedish satellite earth station, 1 Inmarsat (Atlantic and Indian Ocean regions); note – Finland shares the Inmarsat earth station with the other Nordic countries (Denmark, Iceland, Norway, and Sweden)
Francegeneral assessment: highly developed
domestic: extensive cable and microwave radio relay; extensive introduction of fiber-optic cable; domestic satellite system
international: country code – 33; numerous submarine cables provide links throughout Europe, Asia, Australia, the Middle East, and US; satellite earth stations – 2 Intelsat (with total of 5 antennas – 2 for Indian Ocean and 3 for Atlantic Ocean), NA Eutelsat, 1 Inmarsat (Atlantic Ocean region); HF radiotelephone communications with more than 20 countries
overseas departments: country codes: French Guiana – 594; Guadeloupe – 590; Martinique – 596; Reunion – 262
French Polynesiageneral assessment: NA
domestic: NA
international: country code – 689; satellite earth station – 1 Intelsat (Pacific Ocean)
Gabongeneral assessment: adequate service by African standards and improving with the help of a growing mobile cell network system with three providers; mobile-cellular subscribership exceeded 50 per 100 persons in 2006
domestic: adequate system of cable, microwave radio relay, tropospheric scatter, radiotelephone communication stations, and a domestic satellite system with 12 earth stations
international: country code – 241; landing point for the SAT-3/WASC fiber-optic submarine cable that provides connectivity to Europe and Asia; satellite earth stations – 3 Intelsat (Atlantic Ocean)
Gambia, Thegeneral assessment: adequate; a packet switched data network is available; two mobile-cellular service providers
domestic: adequate network of microwave radio relay and open-wire; combined fixed-line and mobile-cellular teledensity approaching 30 telephones per 100 persons
international: country code – 220; microwave radio relay links to Senegal and Guinea-Bissau; satellite earth station – 1 Intelsat (Atlantic Ocean) (1997)
Gaza Stripgeneral assessment: NA
domestic: Israeli company BEZEK and the Palestinian company PALTEL are responsible for fixed line services; the Palestinian JAWAL company provides cellular services
international: country code – 970 (2004)
Georgiageneral assessment: fixed-line telecommunications network has only limited coverage outside Tbilisi; multiple mobile-cellular providers provide services to an increasing subscribership throughout the country
domestic: cellular telephone networks now cover the entire country; urban telephone density is about 20 per 100 people; rural telephone density is about 4 per 100 people; intercity facilities include a fiber-optic line between T’bilisi and K’ut’aisi; nationwide pager service is available
international: country code – 995; the Georgia-Russia fiber optic submarine cable provides connectivity to Russia; international service is available by microwave, landline, and satellite through the Moscow switch; international electronic mail and telex service are available
Germanygeneral assessment: Germany has one of the world’s most technologically advanced telecommunications systems; as a result of intensive capital expenditures since reunification, the formerly backward system of the eastern part of the country, dating back to World War II, has been modernized and integrated with that of the western part
domestic: Germany is served by an extensive system of automatic telephone exchanges connected by modern networks of fiber-optic cable, coaxial cable, microwave radio relay, and a domestic satellite system; cellular telephone service is widely available, expanding rapidly, and includes roaming service to many foreign countries
international: country code – 49; Germany’s international service is excellent worldwide, consisting of extensive land and undersea cable facilities as well as earth stations in the Inmarsat, Intelsat, Eutelsat, and Intersputnik satellite systems (2001)
Ghanageneral assessment: fixed-line infrastructure outdated and unreliable; competition among multiple mobile-cellular providers has spurred growth with subscribership about 25 per 100 persons and rising
domestic: primarily microwave radio relay; wireless local loop has been installed
international: country code – 233; landing point for the SAT-3/WASC fiber-optic submarine cable that provides connectivity to Europe and Asia; satellite earth stations – 4 Intelsat (Atlantic Ocean); microwave radio relay link to Panaftel system connects Ghana to its neighbors
Gibraltargeneral assessment: adequate, automatic domestic system and adequate international facilities
domestic: automatic exchange facilities
international: country code – 350; radiotelephone; microwave radio relay; satellite earth station – 1 Intelsat (Atlantic Ocean)
Greecegeneral assessment: adequate, modern networks reach all areas; good mobile telephone and international service
domestic: microwave radio relay trunk system; extensive open-wire connections; submarine cable to offshore islands
international: country code – 30; landing point for the SEA-ME-WE-3 optical telecommunications submarine cable that provides links to Europe, Middle East, and Asia; a number of smaller submarine cables provide connectivity to various parts of Europe, the Middle East, and Cyprus; tropospheric scatter; satellite earth stations – 2 Intelsat (1 Atlantic Ocean and 1 Indian Ocean), 1 Eutelsat, and 1 Inmarsat (Indian Ocean region)
Greenlandgeneral assessment: adequate domestic and international service provided by satellite, cables and microwave radio relay; totally digitalized in 1995
domestic: microwave radio relay and satellite
international: country code – 299; satellite earth stations – 12 Intelsat, 1 Eutelsat, 2 Americom GE-2 (all Atlantic Ocean) (2000)
Grenadageneral assessment: automatic, islandwide telephone system
domestic: interisland VHF and UHF radiotelephone links
international: country code – 1-473; landing point for the East Caribbean Fiber Optic System (ECFS) submarine cable with links to 13 other islands in the eastern Caribbean extending from the British Virgin Islands to Trinidad; SHF radiotelephone links to Trinidad and Tobago and Saint Vincent; VHF and UHF radio links to Trinidad
Guamgeneral assessment: modern system, integrated with US facilities for direct dialing, including free use of 800 numbers
domestic: modern digital system, including cellular mobile service and local access to the Internet
international: country code – 1-671; major landing point for submarine cables between Asia and the US (Guam is a trans-Pacific communications hub for major carriers linking the US and Asia); satellite earth stations – 2 Intelsat (Pacific Ocean)
Guatemalageneral assessment: fairly modern network centered in the city of Guatemala
domestic: state-owned telecommunications company privatized in the late 1990s opening the way for competition; fixed-line teledensity 11 per 100 persons; mobile-cellular teledensity approaching 60 per 100 persons
international: country code – 502; landing point for both the Americas Region Caribbean Ring System (ARCOS-1) and the SAM-1 fiber optic submarine cable system that together provide connectivity to South and Central America, parts of the Caribbean, and the US; connected to Central American Microwave System; satellite earth station – 1 Intelsat (Atlantic Ocean)
Guernseygeneral assessment: NA
domestic: NA
international: 1 submarine cable
Guineageneral assessment: inadequate system of open-wire lines, small radiotelephone communication stations, and new microwave radio relay system
domestic: Conakry reasonably well served; coverage elsewhere remains inadequate and large companies tend to rely on their own systems for nationwide links; combined fixed and mobile-cellular teledensity is about 2 per 100 persons
international: country code – 224; satellite earth station – 1 Intelsat (Atlantic Ocean)
Guinea-Bissaugeneral assessment: small system
domestic: combination of microwave radio relay, open-wire lines, radiotelephone, and cellular communications; fixed-line teledensity less than 1 per 100 persons; mobile-cellular teledensity reached 7 per 100 in 2005
international: country code – 245
Guyanageneral assessment: fair system for long-distance service
domestic: microwave radio relay network for trunk lines; fixed-line teledensity is about 15 per 100 persons; many areas still lack fixed-line telephone services; mobile-cellular teledensity reached 37 per 100 persons in 2005
international: country code – 592; tropospheric scatter to Trinidad; satellite earth station – 1 Intelsat (Atlantic Ocean)
Haitigeneral assessment: domestic facilities barely adequate; international facilities slightly better; telephone density in Haiti remains the lowest in the Latin American and Caribbean region
domestic: coaxial cable and microwave radio relay trunk service; combined fixed and mobile-cellular teledensity is about 8 per 100 persons
international: country code – 509; satellite earth station – 1 Intelsat (Atlantic Ocean)
Holy See (Vatican City)general assessment: automatic digital exchange
domestic: connected via fiber optic cable to Telecom Italia network
international: country code – 39; uses Italian system
Hondurasgeneral assessment: inadequate system
domestic: beginning in 2003, private sub-operators allowed to provide fixed-lines in order to expand telephone coverage; fixed-line teledensity has increased to about 10 per 100 persons; mobile-cellular telephone service has been increasing rapidly and subscribership in 2006 exceeded 30 per 100 persons
international: country code – 504; landing point for both the Americas Region Caribbean Ring System (ARCOS-1) and the MAYA-1 fiber optic submarine cable system that together provide connectivity to South and Central America, parts of the Caribbean, and the US; satellite earth stations – 2 Intelsat (Atlantic Ocean); connected to Central American Microwave System
Hong Konggeneral assessment: modern facilities provide excellent domestic and international services
domestic: microwave radio relay links and extensive fiber-optic network
international: country code – 852; multiple international submarine cables provide connections to Asia, US, Australia, the Middle East, and Western Europe; satellite earth stations – 3 Intelsat (1 Pacific Ocean and 2 Indian Ocean); coaxial cable to Guangzhou, China
Hungarygeneral assessment: the telephone system has been modernized and is capable of satisfying all requests for telecommunication service
domestic: the system is digitalized and highly automated; trunk services are carried by fiber-optic cable and digital microwave radio relay; a program for fiber-optic subscriber connections was initiated in 1996; competition among mobile-cellular service providers has led to a sharp increase in the use of mobile cellular phones since 2000 and a decrease in the number of fixed-line connections
international: country code – 36; Hungary has fiber-optic cable connections with all neighboring countries; the international switch is in Budapest; satellite earth stations – 2 Intelsat (Atlantic Ocean and Indian Ocean regions), 1 Inmarsat, 1 very small aperture terminal (VSAT) system of ground terminals
Icelandgeneral assessment: telecommunications infrastructure is modern and fully digitized, with satellite-earth stations, fiber-optic cables, and an extensive broadband network
domestic: liberalization of the telecommunications sector beginning in the late 1990s has led to increased competition especially in the mobile services segment of the market
international: country code – 354; the CANTAT-3 and FARICE-1 submarine cable systems provide connectivity to Canada, the Faroe Islands, UK, Denmark, and Germany; a planned new section of the Hibernia-Atlantic submarine cable will provide additional connectivity to Canada, US, and Ireland; satellite earth stations – 2 Intelsat (Atlantic Ocean), 1 Inmarsat (Atlantic and Indian Ocean regions); note – Iceland shares the Inmarsat earth station with the other Nordic countries (Denmark, Finland, Norway, and Sweden)
Indiageneral assessment: recent deregulation and liberalization of telecommunications laws and policies have prompted rapid growth; local and long distance service provided throughout all regions of the country, with services primarily concentrated in the urban areas; steady improvement is taking place with the recent admission of private and private-public investors, but combined fixed and mobile telephone density remains low at about 20 for each 100 persons nationwide and much lower for persons in rural areas; fastest growth is in cellular service with modest growth in fixed lines
domestic: mobile cellular service (both CDMA and GSM) introduced in 1994 and organized nationwide into four metropolitan areas and 19 telecom circles each with about three private service providers and one state-owned service provider; in recent years significant trunk capacity added in the form of fiber-optic cable and one of the world’s largest domestic satellite systems, the Indian National Satellite system (INSAT), with 6 satellites supporting 33,000 very small aperture terminals (VSAT)
international: country code – 91; a number of major international submarine cable systems, including Sea-Me-We-3 with landing sites at Cochin and Mumbai (Bombay), Sea-Me-We-4 with a landing site at Chennai, Fiber-Optic Link Around the Globe (FLAG) with a landing site at Mumbai (Bombay), South Africa – Far East (SAFE) with a landing site at Cochin, the i2i cable network linking to Singapore with landing sites at Mumbai (Bombay) and Chennai (Madras), and Tata Indicom linking Singapore and Chennai (Madras), provide a significant increase in the bandwidth available for both voice and data traffic; satellite earth stations – 8 Intelsat (Indian Ocean) and 1 Inmarsat (Indian Ocean region); 9 gateway exchanges operating from Mumbai (Bombay), New Delhi, Kolkata (Calcutta), Chennai (Madras), Jalandhar, Kanpur, Gandhinagar, Hyderabad, and Ernakulam
Indonesiageneral assessment: domestic service fair, international service good
domestic: interisland microwave system and HF radio police net; domestic satellite communications system; coverage provided by existing network has been expanded by use of over 200,000 telephone kiosks many located in remote areas
international: country code – 62; landing point for both the SEA-ME-WE-3 AND SEA-ME-WE-4 submarine cable networks that provide links throughout Asia, the Middle East, and Europe; satellite earth stations – 2 Intelsat (1 Indian Ocean and 1 Pacific Ocean)
Irangeneral assessment: currently being modernized and expanded with the goal of not only improving the efficiency and increasing the volume of the urban service but also bringing telephone service to several thousand villages, not presently connected
domestic: the addition of new fiber cables and modern switching and exchange systems installed by Iran’s state-owned telecom company have improved and expanded the main line network greatly; main line availability has more than doubled to 22 million lines since 2000; additionally, mobile service has increased dramatically serving nearly 13.7 million subscribers in 2006
international: country code – 98; submarine fiber-optic cable to UAE with access to Fiber-Optic Link Around the Globe (FLAG); Trans-Asia-Europe (TAE) fiber-optic line runs from Azerbaijan through the northern portion of Iran to Turkmenistan with expansion to Georgia and Azerbaijan; HF radio and microwave radio relay to Turkey, Azerbaijan, Pakistan, Afghanistan, Turkmenistan, Syria, Kuwait, Tajikistan, and Uzbekistan; satellite earth stations – 9 Intelsat and 4 Inmarsat (2006)
Iraqgeneral assessment: the 2003 liberation of Iraq severely disrupted telecommunications throughout Iraq including international connections; widespread government efforts to rebuild domestic and international communications through fiber optic links are in progress; the mobile cellular market has expanded rapidly with an estimated 10.9 million current users
domestic: repairs to switches and lines destroyed during 2003 continue; additional switching capacity is improving access; cellular service is available and centered on 3 GSM networks which are being expanded beyond their regional roots, improving country-wide connectivity; wireless local loop licences have been issued with the hope of overcoming the lack of fixed-line infrastructure
international: country code – 964; satellite earth stations – 2 Intelsat (1 Atlantic Ocean and 1 Indian Ocean), 1 Intersputnik (Atlantic Ocean region), and 1 Arabsat (inoperative); local microwave radio relay connects border regions to Jordan, Kuwait, Syria, and Turkey; planned international fiber-optic connections to Iran (terrestrial) with a link to the Fiber-Optic Link Around the Globe (FLAG) submarine fiber-optic cable (2007)
Irelandgeneral assessment: modern digital system using cable and microwave radio relay
domestic: microwave radio relay
international: country code – 353; landing point for the Hibernia-Atlantic submarine cable with links to the US, Canada, and UK; satellite earth station – 1 Intelsat (Atlantic Ocean)
Isle of Mangeneral assessment: NA
domestic: landline, telefax, mobile cellular telephone system
international: fiber-optic cable, microwave radio relay, satellite earth station, submarine cable
Israelgeneral assessment: most highly developed system in the Middle East although not the largest
domestic: good system of coaxial cable and microwave radio relay; all systems are digital; four privately-owned mobile-cellular service providers with countrywide coverage; mobile-cellular teledensity is more than 130 per 100 persons
international: country code – 972; submarine cables provide links to Europe, Cyprus, and parts of the Middle East; satellite earth stations – 3 Intelsat (2 Atlantic Ocean and 1 Indian Ocean)
Italygeneral assessment: modern, well developed, fast; fully automated telephone, telex, and data services
domestic: high-capacity cable and microwave radio relay trunks
international: country code – 39; a series of submarine cables provide links to Asia, Middle East, Europe, North Africa, and US; satellite earth stations – 3 Intelsat (with a total of 5 antennas – 3 for Atlantic Ocean and 2 for Indian Ocean), 1 Inmarsat (Atlantic Ocean region), and NA Eutelsat
Jamaicageneral assessment: fully automatic domestic telephone network
domestic: the 1999 agreement to open the market for telecommunications services resulted in rapid growth in mobile-cellular telephone usage; mobile-cellular teledensity now exceeds 100 per 100 persons; the number of fixed-lines in use has been declining
international: country code – 1-876; the Fibralink submarine cable network provides enhanced delivery of business and broadband traffic and is linked to the Americas Region Caribbean Ring System (ARCOS-1) submarine cable in the Dominican Republic; the link to ARCOS-1 provides seamless connectivity to US, parts of the Caribbean, Central America, and South America; satellite earth stations – 2 Intelsat (Atlantic Ocean)
Japangeneral assessment: excellent domestic and international service
domestic: high level of modern technology and excellent service of every kind
international: country code – 81; numerous submarine cables provide links throughout Asia, Australia, the Middle East, Europe, and US; satellite earth stations – 5 Intelsat (4 Pacific Ocean and 1 Indian Ocean), 1 Intersputnik (Indian Ocean region), and 1 Inmarsat (Pacific and Indian Ocean regions
Jerseygeneral assessment: NA
domestic: NA
international: submarine cable connectivity to Guernsey and UK
Jordangeneral assessment: service has improved recently with increased use of digital switching equipment; microwave radio relay transmission and coaxial and fiber-optic cable are employed on trunk lines; growing mobile-cellular usage in both urban and rural areas is reducing use of fixed-line services; internet penetration remains modest and slow-growing
domestic: 1995 telecommunications law opened all non-fixed-line services to private competition; in 2005, monopoly over fixed-line services terminated and the entire telecommunications sector was opened to competition; mobile-cellular usage is increasing rapidly and teledensity is approaching 75 per 100 persons
international: country code – 962; landing point for the Fiber-Optic Link Around the Globe (FLAG) submarine cable network that provides links to Asia, Middle East, Europe; satellite earth stations – 3 Intelsat, 1 Arabsat, and 29 land and maritime Inmarsat terminals; fiber-optic cable to Saudi Arabia and microwave radio relay link with Egypt and Syria; participant in Medarabtel
Kazakhstangeneral assessment: inherited an outdated telecommunications network from the Soviet era requiring modernization
domestic: intercity by landline and microwave radio relay; number of fixed-line connections is gradually increasing and fixed-line teledensity is about 20 per 100 persons; mobile-cellular usage is increasing rapidly and subscriptions now exceed 50 per 100 persons
international: country code – 7; international traffic with other former Soviet republics and China carried by landline and microwave radio relay and with other countries by satellite and by the Trans-Asia-Europe (TAE) fiber-optic cable; satellite earth stations – 2 Intelsat
Kenyageneral assessment: inadequate; fixed-line telephone system is small and inefficient; trunks are primarily microwave radio relay; business data commonly transferred by a very small aperture terminal (VSAT) system
domestic: no recent growth in fixed-line infrastructure and the sole provider, Telkom Kenya, is slated for privatization; multiple providers in the mobile-cellular segment of the market fostering a boom in mobile-cellular telephone usage
international: country code – 254; satellite earth stations – 4 Intelsat
Kiribatigeneral assessment: generally good quality national and international service
domestic: wire line service available on Tarawa and Kiritimati (Christmas Island); connections to outer islands by HF/VHF radiotelephone; wireless service available in Tarawa since 1999
international: country code – 686; Kiribati is being linked to the Pacific Ocean Cooperative Telecommunications Network, which should improve telephone service; satellite earth station – 1 Intelsat (Pacific Ocean)
Korea, Northgeneral assessment: NA
domestic: NA
international: country code – 850; satellite earth stations – 1 Intelsat (Indian Ocean) and 1 Russian (Indian Ocean region); other international connections through Moscow and Beijing
Korea, Southgeneral assessment: excellent domestic and international services
domestic: NA
international: country code – 82; numerous submarine cables provide links throughout Asia, Australia, the Middle East, Europe, and US; satellite earth stations – 3 Intelsat (1 Pacific Ocean and 2 Indian Ocean) and 3 Inmarsat (1 Pacific Ocean and 2 Indian Ocean)
Kuwaitgeneral assessment: the quality of service is excellent
domestic: new telephone exchanges provide a large capacity for new subscribers; trunk traffic is carried by microwave radio relay, coaxial cable, and open-wire and fiber-optic cable; a cellular telephone system operates throughout Kuwait, and the country is well supplied with pay telephones
international: country code – 965; linked to international submarine cable Fiber-Optic Link Around the Globe (FLAG); linked to Bahrain, Qatar, UAE via the Fiber-Optic Gulf (FOG) cable; coaxial cable and microwave radio relay to Saudi Arabia; satellite earth stations – 3 Intelsat (1 Atlantic Ocean, 2 Indian Ocean), 1 Inmarsat (Atlantic Ocean), and 2 Arabsat
Kyrgyzstangeneral assessment: telecommunications infrastructure is growing; fixed line penetration remains low and concentrated in urban areas
domestic: 4 mobile cellular service providers with growing coverage
international: country code – 996; connections with other CIS countries by landline or microwave radio relay and with other countries by leased connections with Moscow international gateway switch and by satellite; satellite earth stations – 1 Intersputnik, 1 Intelsat; connected internationally by the Trans-Asia-Europe (TAE) fiber-optic line (2006)
Laosgeneral assessment: service to general public is poor but improving; the government relies on a radiotelephone network to communicate with remote areas
domestic: multiple service providers; combined fixed-line and mobile-cellular subscribership about 10 per 100 persons
international: country code – 856; satellite earth station – 1 Intersputnik (Indian Ocean region)
Latviageneral assessment: recent efforts focused on bringing competition to the telecommunications sector; the number of fixed lines is decreasing as wireless telephony expands
domestic: number of telecommunications operators has grown rapidly since the fixed-line market opened to competition in 2003; combined fixed-line and mobile-cellular subscribership is roughly 125 per 100 persons
international: country code – 371; the Latvian network is now connected via fiber optic cable to Estonia, Finland, and Sweden
Lebanongeneral assessment: repair of the telecommunications system, severely damaged during the civil war, now complete
domestic: two wireless networks provide good service; political instability hampers privatization and deployment of new technologies; combined fixed-line and mobile-cellular subscribership approaching 50 per 100 persons
international: country code – 961; submarine cable link to Cyprus; satellite earth stations – 2 Intelsat (1 Indian Ocean and 1 Atlantic Ocean); coaxial cable to Syria
Lesothogeneral assessment: rudimentary system consisting of a modest but growing number of landlines, a small microwave radio relay system, and a small radiotelephone communication system; mobile-cellular telephone system is expanding
domestic: privatized in 2001, Telecom Lesotho tasked with providing an additional 50,000 fixed-line connections within five years, a target not met; mobile-cellular service is expanding with a subscribership approaching 15 per 100 persons; rural services are scant
international: country code – 266; satellite earth station – 1 Intelsat (Atlantic Ocean)
Liberiageneral assessment: the limited services available are found almost exclusively in the capital Monrovia; coverage extended to a number of other towns and rural areas by four mobile-cellular network operators
domestic: combined fixed and mobile-cellular teledensity only about 5 per 100 persons
international: country code – 231; satellite earth station – 1 Intelsat (Atlantic Ocean)
Libyageneral assessment: telecommunications system is being modernized; mobile cellular telephone system became operational in 1996; combined fixed line and mobile telephone density reached 75 telephones per 100 persons in 2006
domestic: microwave radio relay, coaxial cable, cellular, tropospheric scatter, and a domestic satellite system with 14 earth stations
international: country code – 218; satellite earth stations – 4 Intelsat, NA Arabsat, and NA Intersputnik; submarine cables to France and Italy; microwave radio relay to Tunisia and Egypt; tropospheric scatter to Greece; participant in Medarabtel (1999)
Liechtensteingeneral assessment: automatic telephone system
domestic: NA
international: country code – 423; linked to Swiss networks by cable and microwave radio relay
Lithuaniageneral assessment: adequate; being modernized to provide improved international capability and better residential access
domestic: rapid expansion of mobile-cellular services has resulted in a steady decline in the number of main line subscriptions; mobile-cellular teledensity has increased to about 135 per 100 persons while fixed-line teledensity has dropped to 22 per 100 persons
international: country code – 370; major international connections to Denmark, Sweden, and Norway by submarine cable for further transmission by satellite; landline connections to Latvia and Poland
Luxembourggeneral assessment: highly developed, completely automated and efficient system, mainly buried cables
domestic: nationwide cellular telephone system; market for mobile-cellular phones is virtually saturated with roughly 150 cellular phones per 100 persons
international: country code – 352
Macaugeneral assessment: fairly modern communication facilities maintained for domestic and international services
domestic: termination of monopoly over mobile-cellular telephone services in 2001 spurred sharp increase in subscriptions with mobile-cellular teledensity approaching 140 per 100 persons in 2006; fixed-line teledensity about 40 per 100 persons
international: country code – 853; landing point for the SEA-ME-WE-3 submarine cable network that provides links to Asia, the Middle East, and Europe; HF radiotelephone communication facility; satellite earth station – 1 Intelsat (Indian Ocean)
Macedoniageneral assessment: competition from the mobile-cellular segment of the telecommunications market has led to a drop in fixed-line telephone subscriptions
domestic: combined fixed line and mobile telephone density exceeds 90 per 100 persons
international: country code – 389
Madagascargeneral assessment: system is above average for the region; Antananarivo’s main telephone exchange modernized, but the rest of the analogue-based telephone system is poorly developed; planning to add 50,000 new private-subscriber fixed lines beginning in 2005
domestic: combined fixed-line and mobile telephone density only about 7 per 100 persons
international: country code – 261; submarine cable to Bahrain; satellite earth stations – 1 Intelsat (Indian Ocean), 1 Intersputnik (Atlantic Ocean region)
Malawigeneral assessment: rudimentary
domestic: fixed-line subscribership remains less than 1 per 100 persons; privatization of Malawi Telecommunications (MTL), a necessary step in bringing improvement to telecommunications services, completed in 2006; mobile-cellular services are expanding but cellular network coverage is limited, and is based around the main urban areas
international: country code – 265; satellite earth stations – 2 Intelsat (1 Indian Ocean, 1 Atlantic Ocean)
Malaysiageneral assessment: modern system; international service excellent
domestic: good intercity service provided on Peninsular Malaysia mainly by microwave radio relay; adequate intercity microwave radio relay network between Sabah and Sarawak via Brunei; domestic satellite system with 2 earth stations; combined fixed-line and mobile cellular teledensity approaching 100 per 100 persons
international: country code – 60; landing point for several major international submarine cable networks that provide connectivity to Asia, Middle East, and Europe; satellite earth stations – 2 Intelsat (1 Indian Ocean, 1 Pacific Ocean) (2001)
Maldivesgeneral assessment: telephone services have improved; each island now has at least 1 public telephone, and there are mobile cellular networks with rapidly expanding subscribership
domestic: interatoll communication through microwave links; all inhabited islands and resorts are connected with telephone and fax service
international: country code – 960; linked to international submarine cable Fiber-Optic Link Around the Globe (FLAG); satellite earth station – 3 Intelsat (Indian Ocean)
Maligeneral assessment: domestic system unreliable but improving; provides only minimal service
domestic: fixed-line availability is gradually increasing, but subscribership remains less than 1 per 100 persons; mobile-cellular subscribership has increased sharply to 13 per 100 persons
international: country code – 223; satellite earth stations – 2 Intelsat (1 Atlantic Ocean, 1 Indian Ocean)
Maltageneral assessment: automatic system satisfies normal requirements; fixed-line teledensity 50 per 100 persons; mobile-cellular teledensity about 90 per 100 persons
domestic: submarine cable and microwave radio relay between islands
international: country code – 356; submarine cable connects to Italy; satellite earth station – 1 Intelsat (Atlantic Ocean)
Marshall Islandsgeneral assessment: digital switching equipment; modern services include telex, cellular, internet, international calling, caller ID, and leased data circuits
domestic: Majuro Atoll and Ebeye and Kwajalein islands have regular, seven-digit, direct-dial telephones; other islands interconnected by high frequency radiotelephone (used mostly for government purposes) and mini-satellite telephones
international: country code – 692; satellite earth stations – 2 Intelsat (Pacific Ocean); US Government satellite communications system on Kwajalein (2001)
Mauritaniageneral assessment: limited system of cable and open-wire lines, minor microwave radio relay links, and radiotelephone communications stations; mobile-cellular services expanding rapidly
domestic: Mauritel, the national telecommunications company, was privatized in 2001 but remains the monopoly provider of fixed-line services; fixed-line teledensity 1 per 100 persons; mobile-cellular network coverage extends mainly to urban areas with a teledensity approaching 35 per 100 persons; mostly cable and open-wire lines; a domestic satellite telecommunications system links Nouakchott with regional capitals
international: country code – 222; satellite earth stations – 1 Intelsat (Atlantic Ocean), 2 Arabsat
Mauritiusgeneral assessment: small system with good service
domestic: monopoly over fixed-line services terminated in 2005; fixed-line teledensity roughly 30 per 100 persons; mobile-cellular services launched in 1989 with teledensity in 2006 exceeding 60 per 100 persons
international: country code – 230; landing point for the SAFE submarine cable that provides links to Asia and South Africa where it connects to the SAT-3/WASC submarine cable that provides further links to parts of East Africa, and Europe; satellite earth station – 1 Intelsat (Indian Ocean); new microwave link to Reunion; HF radiotelephone links to several countries
Mayottegeneral assessment: small system administered by French Department of Posts and Telecommunications
domestic: NA
international: country code – 269; microwave radio relay and HF radiotelephone communications to Comoros
Mexicogeneral assessment: adequate telephone service for business and government, but the population is poorly served; mobile subscribers far outnumber fixed-line subscribers; domestic satellite system with 120 earth stations; extensive microwave radio relay network; considerable use of fiber-optic cable and coaxial cable
domestic: low telephone density with about 18 fixed lines per 100 persons; privatized in December 1990; despite the opening to competition in January 1997, Telmex remains dominant; legal challenges to Telmex’s alleged anti-competitive behavior in the mobile and fixed-line markets culminated in a World Trade Organization ruling in 2004 against Mexico prompting some strengthening of the powers granted Mexico’s telecom regulator
international: country code – 52; Columbus-2 fiber-optic submarine cable with access to the US, Virgin Islands, Canary Islands, Spain, and Italy; the Americas Region Caribbean Ring System (ARCOS-1) and the MAYA-1 submarine cable system together provide access to Central America, parts of South America and the Caribbean, and the US; satellite earth stations – 32 Intelsat, 2 Solidaridad (giving Mexico improved access to South America, Central America, and much of the US as well as enhancing domestic communications), 1 Panamsat, numerous Inmarsat mobile earth stations; linked to Central American Microwave System of trunk connections (2005)
Micronesia, Federated States ofgeneral assessment: adequate system
domestic: islands interconnected by shortwave radiotelephone (used mostly for government purposes), satellite (Intelsat) ground stations, and some coaxial and fiber-optic cable; cellular service available on Kosrae, Pohnpei, and Yap
international: country code – 691; satellite earth stations – 5 Intelsat (Pacific Ocean) (2002)
Moldovageneral assessment: inadequate, outmoded, poor service outside Chisinau; some modernization is under way
domestic: depending on location, new subscribers may face long wait for service; multiple private operators of GSM mobile cellular telephone service are operating; GPRS system is being introduced; a CDMA mobile telephone network began operations in 2007
international: country code – 373; service through Romania and Russia via landline; satellite earth stations – Intelsat, Eutelsat, and Intersputnik (2006)
Monacogeneral assessment: modern automatic telephone system
domestic: NA
international: country code – 377; no satellite earth stations; connected by cable into the French communications system
Mongoliageneral assessment: network is improving with international direct dialing available in many areas
domestic: very low fixed-line density; there are multiple mobile cellular service providers and subscribership is increasing rapidly; a fiber-optic network is also being installed that will improve broadband and communication services between major urban centers
international: country code – 976; satellite earth stations – 7
Montenegrogeneral assessment: modern telecommunications system with access to European satellites
domestic: GSM wireless service, available through 2 providers with national coverage, is growing rapidly
international: country code – 382; 2 international switches connect the national system
Montserratgeneral assessment: modern and fully digitalized
domestic: NA
international: country code – 1-664; landing point for the East Caribbean Fiber System (ECFS) optic submarine cable with links to 13 other islands in the eastern Caribbean extending from the British Virgin Islands to Trinidad
Moroccogeneral assessment: modern system with all important capabilities; however, density is low with only 4 fixed lines available for each 100 persons; mobile-cellular subscribership is approaching 50 per 100 persons
domestic: good system composed of open-wire lines, cables, and microwave radio relay links; Internet available but expensive; principal switching centers are Casablanca and Rabat; national network nearly 100% digital using fiber-optic links; improved rural service employs microwave radio relay
international: country code – 212; landing point for the SEA-ME-WE-3 optical telecommunications submarine cable that provides connectivity to Asia, the Middle East, and Europe; satellite earth stations – 2 Intelsat (Atlantic Ocean) and 1 Arabsat; microwave radio relay to Gibraltar, Spain, and Western Sahara; coaxial cable and microwave radio relay to Algeria; participant in Medarabtel; fiber-optic cable link from Agadir to Algeria and Tunisia
Mozambiquegeneral assessment: fair system with an extremely low density of less than 1 fixed line per 100 persons
domestic: the telecommunications sector is shackled with a heavy state presence, lack of competition, and high operating costs and charges; stagnation in the fixed-line network contrasts with rapid growth in the mobile-cellular network; mobile-cellular coverage now includes all the main cities and key roads, including those from Maputo to the South African and Swaziland borders, the national highway through Gaza and Inhambane provinces, the Beira corridor, and from Nampula to Nacala
international: country code – 258; satellite earth stations – 5 Intelsat (2 Atlantic Ocean and 3 Indian Ocean)
Namibiageneral assessment: good system with a combined fixed-line and mobile-cellular teledensity of about 30 per 100 persons
domestic: core fiber-optic network links most centers and connections are now digital; Namibia’s first mobile-phone network, launched in 1994, provides coverage to 86 percent of Namibia by area
international: country code – 264; fiber-optic cable to South Africa, microwave radio relay link to Botswana, direct links to other neighboring countries; connected to the South African Far East (SAFE) submarine cable through South Africa; satellite earth stations – 4 Intelsat
Naurugeneral assessment: adequate local and international radiotelephone communication provided via Australian facilities
domestic: NA
international: country code – 674; satellite earth station – 1 Intelsat (Pacific Ocean)
Nepalgeneral assessment: poor telephone and telegraph service; fair radiotelephone communication service and mobile cellular telephone network
domestic: NA
international: country code – 977; radiotelephone communications; microwave landline to India; satellite earth station – 1 Intelsat (Indian Ocean)
Netherlandsgeneral assessment: highly developed and well maintained
domestic: extensive fixed-line fiber-optic network; cellular telephone system is one of the largest in Europe with 5 major network operators utilizing the third generation of the Global System for Mobile Communications (GSM)
international: country code – 31; submarine cables provide links to the US and Europe; satellite earth stations – 3 Intelsat (1 Indian Ocean and 2 Atlantic Ocean), 1 Eutelsat, and 1 Inmarsat (Atlantic and Indian Ocean regions) (2004)
Netherlands Antillesgeneral assessment: generally adequate facilities
domestic: extensive interisland microwave radio relay links
international: country code – 599; the Americas Region Caribbean Ring System (ARCOS-1) and the Americas-2 submarine cable systems provide connectivity to Central America, parts of South America and the Caribbean, and the US; satellite earth stations – 2 Intelsat (Atlantic Ocean)
New Caledoniageneral assessment: NA
domestic: a submarine cable network connection between New Caledonia and Australia, scheduled for completion in 2008, will improve high-speed connectivity and access to international networks
international: country code – 687; satellite earth station – 1 Intelsat (Pacific Ocean)
New Zealandgeneral assessment: excellent domestic and international systems
domestic: NA
international: country code – 64; the Southern Cross submarine cable system provides links to Australia, Fiji, and US; satellite earth stations – 1 InMarSat (Pacific Ocean), 7 other
Nicaraguageneral assessment: system being upgraded by foreign investment; nearly all installed telecommunications capacity now uses digital technology, owing to investments since privatization of the formerly state-owned telecoms company
domestic: since privatization, access to fixed-line and mobile-cellular services has improved but teledensity still lags behind other Central American countries; connected to Central American Microwave System
international: country code – 505; the Americas Region Caribbean Ring System (ARCOS-1) fiber optic submarine cable provides connectivity to South and Central America, parts of the Caribbean, and the US; satellite earth stations – 1 Intersputnik (Atlantic Ocean region) and 1 Intelsat (Atlantic Ocean)
Nigergeneral assessment: inadequate; small system of wire, radio telephone communications, and microwave radio relay links concentrated in the southwestern area of Niger
domestic: combined fixed-line and mobile-cellular teledensity is less than 3 per 100 persons; domestic satellite system with 3 earth stations and 1 planned
international: country code – 227; satellite earth stations – 2 Intelsat (1 Atlantic Ocean and 1 Indian Ocean)
Nigeriageneral assessment: further expansion and modernization of the fixed-line telephone network is needed
domestic: the addition of a second fixed-line provider in 2002 resulted in faster growth of this service with fixed-line subscribership nearly tripling over the past five years; wireless telephony has grown rapidly, in part responding to the shortcomings of the fixed-line network; multiple service providers operate nationally; combined fixed-line and mobile-cellular teledensity reached 25 per 100 persons in 2006
international: country code – 234; landing point for the SAT-3/WASC fiber-optic submarine cable that provides connectivity to Europe and Asia; satellite earth stations – 3 Intelsat (2 Atlantic Ocean and 1 Indian Ocean)
Niuedomestic: single-line telephone system connects all villages on island
international: country code – 683 (2001)
Norfolk Islandgeneral assessment: adequate
domestic: free local calls
international: country code – 672; undersea coaxial cable links with Australia and New Zealand; satellite earth station
Northern Mariana Islandsgeneral assessment: NA
domestic: NA
international: country code – 1-670; satellite earth stations – 2 Intelsat (Pacific Ocean)
Norwaygeneral assessment: modern in all respects; one of the most advanced telecommunications networks in Europe
domestic: Norway has a domestic satellite system; moreover, the prevalence of rural areas encourages the wide use of cellular mobile systems instead of fixed-wire systems
international: country code – 47; 2 buried coaxial cable systems; submarine cables provide links to other Nordic countries and Europe; satellite earth stations – NA Eutelsat, NA Intelsat (Atlantic Ocean), and 1 Inmarsat (Atlantic and Indian Ocean regions); note – Norway shares the Inmarsat earth station with the other Nordic countries (Denmark, Finland, Iceland, and Sweden) (1999)
Omangeneral assessment: modern system consisting of open-wire, microwave, and radiotelephone communication stations; limited coaxial cable
domestic: fixed-line and mobile-cellular subscribership both increasing; open-wire, microwave, radiotelephone communications, and a domestic satellite system with 8 earth stations
international: country code – 968; the Fiber-Optic Link Around the Globe (FLAG) and the SEA-ME-WE-3 submarine cable provide connectivity to Asia, the Middle East, and Europe; satellite earth stations – 2 Intelsat (Indian Ocean), 1 Arabsat
Pakistangeneral assessment: the telecom infrastructure is improving dramatically with foreign and domestic investments into fixed-line and mobile networks; mobile cellular subscribership has skyrocketed, reaching some 63 million in mid-2007, up from only about 300,000 in 2000; fiber systems are being constructed throughout the country to aid in network growth; main line availability has risen only marginally over the same period and there are still difficulties getting main line service to rural areas
domestic: microwave radio relay, coaxial cable, fiber-optic cable, cellular, and satellite networks
international: country code – 92; landing point for the SEA-ME-WE-3 and SEA-ME-WE-4 submarine cable systems that provide links to Asia, the Middle East, and Europe; satellite earth stations – 3 Intelsat (1 Atlantic Ocean and 2 Indian Ocean); 3 operational international gateway exchanges (1 at Karachi and 2 at Islamabad); microwave radio relay to neighboring countries (2006)
Palaugeneral assessment: NA
domestic: NA
international: country code – 680; satellite earth station – 1 Intelsat (Pacific Ocean)
Panamageneral assessment: domestic and international facilities well developed
domestic: combined fixed-line and mobile-cellular telephone density is approaching 70 telephones per 100 persons
international: country code – 507; landing point for the Americas Region Caribbean Ring System (ARCOS-1), the MAYA-1, and PAN-AM submarine cable systems that together provide links to the US, and parts of the Caribbean, Central America, and South America; satellite earth stations – 2 Intelsat (Atlantic Ocean); connected to the Central American Microwave System
Papua New Guineageneral assessment: services are minimal; facilities provide radiotelephone and telegraph, coastal radio, aeronautical radio, and international radio communication services
domestic: access to telephone services is not widely available; combined fixed-line and mobile-cellular telephone density is less than 3 telephones per 100 persons
international: country code – 675; submarine cables to Australia and Guam; satellite earth station – 1 Intelsat (Pacific Ocean); international radio communication service
Paraguaygeneral assessment: meager telephone service; principal switching center is in Asuncion
domestic: the fixed-line market is a state monopoly; deficiencies in provision of fixed-line service has resulted in a rapid expansion of mobile-cellular services fostered by competition among multiple providers
international: country code – 595; satellite earth station – 1 Intelsat (Atlantic Ocean)
Perugeneral assessment: adequate for most requirements
domestic: fixed-line teledensity is only about 8 per 100 persons; mobile-cellular teledensity, spurred by competition among multiple providers, has increased to about 30 telephones per 100 persons; nationwide microwave radio relay system and a domestic satellite system with 12 earth stations
international: country code – 51; the South America-1 (SAM-1) and Pan American (PAN-AM) submarine cable systems provide links to parts of Central and South America, the Caribbean, and US; satellite earth stations – 2 Intelsat (Atlantic Ocean)
Philippinesgeneral assessment: good international radiotelephone and submarine cable services; domestic and inter-island service adequate
domestic: domestic satellite system with 11 earth stations; cellular communications now dominate the industry; combined fixed-line and mobile-cellular telephone density exceeds 50 telephones per 100 persons with more than 10 mobile cellular subscribers for every fixed-line subscriber
international: country code – 63; a series of submarine cables together provide connectivity to Asia, US, the Middle East, and Europe; multiple international gateways (2006)
Pitcairn Islandsgeneral assessment: satellite phone services
domestic: domestic communication via radio (CB)
international: country code – 872; satellite earth station – 1 (Inmarsat)
Polandgeneral assessment: modernization of the telecommunications network has accelerated with market based competition finalized in 2003; fixed-line service, dominated by the former state-owned company, is dwarfed by the growth in wireless telephony
domestic: mobile-cellular service available since 1993 and provided by three nation-wide networks with a fourth provider beginning operations in late 2006; cellular coverage is generally good with some gaps in the east; fixed-line service is growing slowly and still lags in rural areas
international: country code – 48; international direct dialing with automated exchanges; satellite earth station – 1 with access to Intelsat, Eutelsat, Inmarsat, and Intersputnik
Portugalgeneral assessment: Portugal’s telephone system has achieved a state-of-the-art network with broadband, high-speed capabilities
domestic: integrated network of coaxial cables, open-wire, microwave radio relay, and domestic satellite earth stations
international: country code – 351; a combination of submarine cables provide connectivity to Europe, North and East Africa, South Africa, the Middle East, Asia, and US; satellite earth stations – 3 Intelsat (2 Atlantic Ocean and 1 Indian Ocean), NA Eutelsat; tropospheric scatter to Azores; note – an earth station for Inmarsat (Atlantic Ocean region) is planned (1998)
Puerto Ricogeneral assessment: modern system integrated with that of the US by high-capacity submarine cable and Intelsat with high-speed data capability
domestic: digital telephone system; cellular telephone service
international: country code – 1-787, 939; submarine cables provide connectivity to the US, Caribbean, Central and South America; satellite earth station – 1 Intelsat
Qatargeneral assessment: modern system centered in Doha
domestic: combined fixed-line and mobile-cellular telephone density is roughly 130 telephones per 100 persons
international: country code – 974; landing point for the Fiber-Optic Link Around the Globe (FLAG) submarine cable network that provides links to Asia, Middle East, Europe, and US; tropospheric scatter to Bahrain; microwave radio relay to Saudi Arabia and UAE; satellite earth stations – 2 Intelsat (1 Atlantic Ocean and 1 Indian Ocean) and 1 Arabsat
Romaniageneral assessment: rapidly improving domestic and international service, especially in wireless telephony
domestic: more than 90 percent of telephone network is automatic; liberalization in 2003 is transforming telecommunications; fixed-line teledensity is roughly 20 telephones per 100 persons; mobile-cellular teledensity is approaching 80 telephones per 100 persons
international: country code – 40; the Black Sea Fiber Optic System provides connectivity to Bulgaria and Turkey; satellite earth stations – 10; digital, international, direct-dial exchanges operate in Bucharest (2005)
Russiageneral assessment: the telephone system is experiencing significant changes; there are more than 1,000 companies licensed to offer communication services; access to digital lines has improved, particularly in urban centers; Internet and e-mail services are improving; Russia has made progress toward building the telecommunications infrastructure necessary for a market economy; the estimated number of mobile subscribers jumped from fewer than 1 million in 1998 to 150 million in 2006; a large demand for main line service remains unsatisfied, but fixed-line operators continue to grow their services
domestic: cross-country digital trunk lines run from Saint Petersburg to Khabarovsk, and from Moscow to Novorossiysk; the telephone systems in 60 regional capitals have modern digital infrastructures; cellular services, both analog and digital, are available in many areas; in rural areas, the telephone services are still outdated, inadequate, and low density
international: country code – 7; Russia is connected internationally by undersea fiber optic cables; digital switches in several cities provide more than 50,000 lines for international calls; satellite earth stations provide access to Intelsat, Intersputnik, Eutelsat, Inmarsat, and Orbita systems
Rwandageneral assessment: small, inadequate telephone system primarily serves business and government
domestic: the capital, Kigali, is connected to the centers of the provinces by microwave radio relay and, recently, by cellular telephone service; much of the network depends on wire and HF radiotelephone; combined fixed-line and mobile-cellular telephone density is only about 4 telephones per 100 persons
international: country code – 250; international connections employ microwave radio relay to neighboring countries and satellite communications to more distant countries; satellite earth stations – 1 Intelsat (Indian Ocean) in Kigali (includes telex and telefax service)
Saint Barthelemygeneral assessment: fully integrated access
domestic: direct dial capability with both fixed and wireless systems
international: country code – 590; undersea fiber-optic cable provides voice and data connectivity to Puerto Rico and Guadeloupe
Saint Helenageneral assessment: can communicate worldwide
domestic: automatic digital network
international: country code (Saint Helena) – 290, (Ascension Island) – 247; international direct dialing; satellite voice and data communications; satellite earth stations – 5 (Ascension Island – 4, Saint Helena – 1)
Saint Kitts and Nevisgeneral assessment: good inter-island and international connections
domestic: inter-island links via Eastern Caribbean Fiber Optic cable; construction of enhanced wireless infrastructure launched in November 2004
international: country code – 1-869; with the East Caribbean Fiber Optic System (ECFS) and Southern Caribbean fiber optic system (SCF) submarine cables providing connectivity, international calls are carried either by submarine cable or Intelsat
Saint Luciageneral assessment: adequate system
domestic: system is automatically switched
international: country code – 1-758; the East Caribbean Fiber Optic System (ECFS) and Southern Caribbean fiber optic system (SCF) submarine cables, along with Intelsat from Martinique, carry calls internationally; direct microwave radio relay link with Martinique and Saint Vincent and the Grenadines; tropospheric scatter to Barbados
Saint Martingeneral assessment: fully integrated access
domestic: direct dial capability with both fixed and wireless systems
international: country code – 590; undersea fiber-optic cable provides voice and data connectivity to Puerto Rico and Gudaloupe
Saint Pierre and Miquelongeneral assessment: adequate
domestic: NA
international: country code – 508; radiotelephone communication with most countries in the world; satellite earth station – 1 in French domestic satellite system
Saint Vincent and the Grenadinesgeneral assessment: adequate system
domestic: islandwide, fully automatic telephone system; VHF/UHF radiotelephone from Saint Vincent to the other islands of the Grenadines; mobile-cellular teledensity about 75 telephones per 100 persons
international: country code – 1-784; the East Caribbean Fiber Optic System (ECFS) and Southern Caribbean fiber optic system (SCF) submarine cables carry international calls; connectivity also provided by VHF/UHF radiotelephone from Saint Vincent to Barbados; SHF radiotelephone to Grenada and Saint Lucia; access to Intelsat earth station in Martinique through Saint Lucia
Samoageneral assessment: adequate
domestic: NA
international: country code – 685; satellite earth station – 1 Intelsat (Pacific Ocean)
San Marinogeneral assessment: adequate connections
domestic: automatic telephone system completely integrated into Italian system; combined fixed-line and mobile-cellular teledensity exceeds 130 telephones per 100 persons
international: country code – 378; connected to Italian international network
Sao Tome and Principegeneral assessment: adequate facilities
domestic: minimal system
international: country code – 239; satellite earth station – 1 Intelsat (Atlantic Ocean)
Saudi Arabiageneral assessment: modern system
domestic: extensive microwave radio relay, coaxial cable, and fiber-optic cable systems; mobile-cellular subscribership has been increasing rapidly
international: country code – 966; landing point for the international submarine cable Fiber-Optic Link Around the Globe (FLAG) and for both the SEA-ME-WE-3 and SEA-ME-WE-4 submarine cable networks providing connectivity to Asia, Middle East, Europe, and US; microwave radio relay to Bahrain, Jordan, Kuwait, Qatar, UAE, Yemen, and Sudan; coaxial cable to Kuwait and Jordan; satellite earth stations – 5 Intelsat (3 Atlantic Ocean and 2 Indian Ocean), 1 Arabsat, and 1 Inmarsat (Indian Ocean region)
Senegalgeneral assessment: good system
domestic: above-average urban system; more than half of all fixed-line connections are in Dakar with expansion of fixed-line services in rural areas needed; mobile-cellular service is expanding rapidly; microwave radio relay, coaxial cable and fiber-optic cable in trunk system
international: country code – 221; the SAT-3/WASC fiber optic cable provides connectivity to Europe and Asia while Atlantis-2 provides connectivity to South America; satellite earth station – 1 Intelsat (Atlantic Ocean)
Serbiageneral assessment: modernization of the telecommunications network has been slow as a result of damage stemming from the 1999 war and transition to a competitive market-based system; network was only 65% digitalized in 2005
domestic: teledensity remains below the average for neighboring states; GSM wireless service, available through multiple providers with national coverage, is growing very rapidly; best telecommunications service limited to urban centers
international: country code – 381
Seychellesgeneral assessment: effective system
domestic: combined fixed-line and mobile-cellular teledensity is roughly 110 telephones per 100 persons; radiotelephone communications between islands in the archipelago
international: country code – 248; direct radiotelephone communications with adjacent island countries and African coastal countries; satellite earth station – 1 Intelsat (Indian Ocean)
Sierra Leonegeneral assessment: marginal telephone service
domestic: the national microwave radio relay trunk system connects Freetown to Bo and Kenema
international: country code – 232; satellite earth station – 1 Intelsat (Atlantic Ocean) (2000)
Singaporegeneral assessment: excellent service
domestic: excellent domestic facilities; launched 3G wireless service in February 2005; combined fixed-line and mobile-cellular teledensity is about 150 telephones per 100 persons
international: country code – 65; numerous submarine cables provide links throughout Asia, Australia, the Middle East, Europe, and US; satellite earth stations -4; supplemented by VSAT coverage (2003)
Slovakiageneral assessment: Slovakia has a modern telecommunications system that has expanded dramatically in recent years with the growth in cellular services
domestic: analog system is now receiving digital equipment and is being enlarged with fiber-optic cable, especially in the larger cities; 3 companies provide nationwide cellular services
international: country code – 421; 3 international exchanges (1 in Bratislava and 2 in Banska Bystrica) are available; Slovakia is participating in several international telecommunications projects that will increase the availability of external services
Sloveniageneral assessment: well-developed telecommunications infrastructure
domestic: combined fixed-line and mobile-cellular teledensity exceeds 130 telephones per 100 persons
international: country code – 386
Solomon Islandsgeneral assessment: NA
domestic: NA
international: country code – 677; satellite earth station – 1 Intelsat (Pacific Ocean)
Somaliangeneral assessment: the public telecommunications system was almost completely destroyed or dismantled during the civil war; private wireless companies offer service in most major cities and charge the lowest international rates on the continent
domestic: local cellular telephone systems have been established in Mogadishu and in several other population centers
international: country code – 252; international connections are available from Mogadishu by satellite (2001)
South Africageneral assessment: the system is the best developed and most modern in Africa
domestic: combined fixed-line and mobile-cellular teledensity roughly 100 telephones per 100 persons; consists of carrier-equipped open-wire lines, coaxial cables, microwave radio relay links, fiber-optic cable, radiotelephone communication stations, and wireless local loops; key centers are Bloemfontein, Cape Town, Durban, Johannesburg, Port Elizabeth, and Pretoria
international: country code – 27; the SAT-3/WASC and SAFE fiber optic cable systems connect in South Africa providing connectivity to Europe and Asia; satellite earth stations – 3 Intelsat (1 Indian Ocean and 2 Atlantic Ocean)
South Georgia and the South Sandwich Islandsgeneral assessment: NA
domestic: NA
international: coastal radiotelephone station at Grytviken
Spaingeneral assessment: well developed, modern facilities; fixed-line teledensity is 45 connections for each 100 persons
domestic: combined fixed-line and mobile-cellular teledensity is 160 telephones per 100 persons
international: country code – 34; submarine cables provide connectivity to Europe, Middle East, Asia, and US; satellite earth stations – 2 Intelsat (1 Atlantic Ocean and 1 Indian Ocean), NA Eutelsat; tropospheric scatter to adjacent countries
Sri Lankageneral assessment: telephone services have improved significantly and are available in most parts of the country
domestic: national trunk network consists mostly of digital microwave radio relay; fiber-optic links now in use in Colombo area and 2 fixed wireless local loops have been installed; competition is strong in mobile cellular systems and mobile cellular subscribership is increasing; combined fixed-line and mobile-cellular telephone density is about 50 per 100 inhabitants
international: country code – 94; the SEA-ME-WE-3 and SEA-ME-WE-4 submarine cables provide connectivity to Asia, Australia, Middle East, Europe, US; satellite earth stations – 2 Intelsat (Indian Ocean)
Sudangeneral assessment: large, well-equipped system by regional standards and being upgraded; cellular communications started in 1996 and have expanded substantially
domestic: consists of microwave radio relay, cable, radiotelephone communications, tropospheric scatter, and a domestic satellite system with 14 earth stations
international: country code – 249; linked to international submarine cable Fiber-Optic Link Around the Globe (FLAG); satellite earth stations – 1 Intelsat (Atlantic Ocean), 1 Arabsat (2000)
Surinamegeneral assessment: international facilities are good
domestic: combined fixed-line and mobile-cellular teledensity about 90 telephones per 100 persons; microwave radio relay network
international: country code – 597; satellite earth stations – 2 Intelsat (Atlantic Ocean)
Svalbardgeneral assessment: probably adequate
domestic: local telephone service
international: country code – 47-790; satellite earth station – 1 of unknown type (for communication with Norwegian mainland only)
Swazilandgeneral assessment: a somewhat modern but not an advanced system
domestic: mobile-cellular subscribership is increasing; combined fixed-line and mobile cellular teledensity about 25 telephones per 100 persons; telephone system consists of carrier-equipped, open-wire lines and low-capacity, microwave radio relay
international: country code – 268; satellite earth station – 1 Intelsat (Atlantic Ocean)
Swedengeneral assessment: highly developed telecommunications infrastructure; ranked among leading countries for fixed-line, mobile-cellular, Internet and broadband penetration
domestic: coaxial and multiconductor cables carry most of the voice traffic; parallel microwave radio relay systems carry some additional telephone channels
international: country code – 46; submarine cables provide links to other Nordic countries and Europe; satellite earth stations – 1 Intelsat (Atlantic Ocean), 1 Eutelsat, and 1 Inmarsat (Atlantic and Indian Ocean regions); note – Sweden shares the Inmarsat earth station with the other Nordic countries (Denmark, Finland, Iceland, and Norway)
Switzerlandgeneral assessment: highly developed telecommunications infrastructure with excellent domestic and international services
domestic: ranked among leading countries for fixed-line teledensity and infrastructure; mobile-cellular subscribership roughly 100 per 100 persons; extensive cable and microwave radio relay networks
international: country code – 41; satellite earth stations – 2 Intelsat (Atlantic Ocean and Indian Ocean)
Syriageneral assessment: fair system currently undergoing significant improvement and digital upgrades, including fiber-optic technology
domestic: the number of fixed-line connections has increased markedly since 2000; mobile-cellular service growing rapidly and teledensity has reached 25 wireless telephones per 100 persons; coaxial cable and microwave radio relay network
international: country code – 963; submarine cable connection to Cyprus; satellite earth stations – 1 Intelsat (Indian Ocean) and 1 Intersputnik (Atlantic Ocean region); coaxial cable and microwave radio relay to Iraq, Jordan, Lebanon, and Turkey; participant in Medarabtel
Taiwangeneral assessment: provides telecommunications service for every business and private need
domestic: thoroughly modern; completely digitalized
international: country code – 886; numerous submarine cables provide links throughout Asia, Australia, the Middle East, Europe, and US; 2 satellite earth stations
Tajikistangeneral assessment: poorly developed and not well maintained; many towns are not linked to the national network
domestic: the domestic telecommunications network has historically been under funded and poorly maintained; main line availability has not changed significantly since 1998; cellular telephone use is growing but coverage remains limited
international: country code – 992; linked by cable and microwave radio relay to other CIS republics and by leased connections to the Moscow international gateway switch; Dushanbe linked by Intelsat to international gateway switch in Ankara (Turkey); satellite earth stations – 1 Orbita and 2 Intelsat (2006)
Tanzaniageneral assessment: telecommunications services are inadequate; system operating below capacity and being modernized for better service; small aperture terminal (VSAT) system under construction
domestic: fixed-line telephone network inadequate with less than 1 connection per 100 persons; mobile-cellular service, aided by multiple providers, is increasing; trunk service provided by open-wire, microwave radio relay, tropospheric scatter, and fiber-optic cable; some links being made digital
international: country code – 255; satellite earth stations – 2 Intelsat (1 Indian Ocean, 1 Atlantic Ocean)
Thailandgeneral assessment: high quality system, especially in urban areas like Bangkok
domestic: fixed line system provided by both a government owned and commercial provider; wireless service expanding rapidly and outpacing fixed lines
international: country code – 66; connected to major submarine cable systems providing links throughout Asia, Australia, Middle East, Europe, and US; satellite earth stations – 2 Intelsat (1 Indian Ocean, 1 Pacific Ocean)
Timor-Lestegeneral assessment: rudimentary service limited to urban areas
domestic: system suffered significant damage during the violence associated with independence; extremely limited fixed-line services; mobile-cellular services and coverage limited primarily to urban areas
international: country code – 670; international service is available in major urban centers
Togogeneral assessment: fair system based on a network of microwave radio relay routes supplemented by open-wire lines and a mobile cellular system
domestic: microwave radio relay and open-wire lines for conventional system; combined fixed-line and mobile-cellular teledensity roughly 15 telephones per 100 persons
international: country code – 228; satellite earth stations – 1 Intelsat (Atlantic Ocean), 1 Symphonie
Tokelaugeneral assessment: modern satellite-based communications system
domestic: radiotelephone service between islands
international: country code – 690; radiotelephone service to Samoa; government-regulated telephone service (TeleTok), with 3 satellite earth stations
Tongageneral assessment: competition between Tonga Telecommunications Corporation (TCC) and Shoreline Communications Tonga (SCT) is accelerating expansion of telecommunications; SCT recently granted authority to develop high-speed digital service for telephone, Internet, and television
domestic: combined fixed-line and mobile-cellular teledensity roughly 40 telephones per 100 persons; fully automatic switched network
international: country code – 676; satellite earth station – 1 Intelsat (Pacific Ocean) (2004)
Trinidad and Tobagogeneral assessment: excellent international service; good local service
domestic: mobile-cellular teledensity exceeds 150 telephones per 100 persons
international: country code – 1-868; submarine cable systems provide connectivity to US and parts of the Caribbean and South America; satellite earth station – 1 Intelsat (Atlantic Ocean); tropospheric scatter to Barbados and Guyana
Tunisiageneral assessment: above the African average and continuing to be upgraded; key centers are Sfax, Sousse, Bizerte, and Tunis; Internet access available
domestic: in an effort jumpstart expansion of the fixed-line network, the government has awarded a concession to build and operate a VSAT network with international connectivity; competition between the two mobile-cellular service providers has resulted in lower activation and usage charges and a strong surge in subscribership; overall fixed-line and mobile-cellular teledensity is about 85 telephones per 100 persons
international: country code – 216; a landing point for the SEA-ME-WE-4 submarine cable system that provides links to Europe, Middle East, and Asia; satellite earth stations – 1 Intelsat (Atlantic Ocean) and 1 Arabsat; coaxial cable and microwave radio relay to Algeria and Libya; participant in Medarabtel; 2 international gateway digital switches
Turkeygeneral assessment: undergoing rapid modernization and expansion especially with cellular telephones
domestic: additional digital exchanges are permitting a rapid increase in subscribers; the construction of a network of technologically advanced intercity trunk lines, using both fiber-optic cable and digital microwave radio relay, is facilitating communication between urban centers; remote areas are reached by a domestic satellite system; the number of subscribers to mobile cellular telephone service is growing rapidly
international: country code – 90; international service is provided by the SEA-ME-WE-3 submarine cable and by submarine fiber-optic cables in the Mediterranean and Black Seas that link Turkey with Italy, Greece, Israel, Bulgaria, Romania, and Russia; satellite earth stations – 12 Intelsat; mobile satellite terminals – 328 in the Inmarsat and Eutelsat systems (2002)
Turkmenistangeneral assessment: poorly developed
domestic: Turkmenistan’s telecommunications network remains woefully underdeveloped; Turkmentelekom, in cooperation with foreign investors, is planning to upgrade the country’s telephone exchanges and install a new digital switching system
international: country code – 993; linked by cable and microwave radio relay to other CIS republics and to other countries by leased connections to the Moscow international gateway switch; a new telephone link from Ashgabat to Iran has been established; a new exchange in Ashgabat switches international traffic through Turkey via Intelsat; satellite earth stations – 1 Orbita and 1 Intelsat (2006)
Turks and Caicos Islandsgeneral assessment: fully digital system with international direct dialing
domestic: full range of services available; GSM wireless service available
international: country code – 1-649; the Americas Region Caribbean Ring System (ARCOS-1) fiber optic telecommunications submarine cable provides connectivity to South and Central America, parts of the Caribbean, and US; satellite earth station – 1 Intelsat (Atlantic Ocean)
Tuvalugeneral assessment: serves particular needs for internal communications
domestic: radiotelephone communications between islands
international: country code – 688; international calls can be made by satellite
Ugandageneral assessment: seriously inadequate; mobile cellular service is increasing rapidly, but a sharp increase in the number of main lines is essential; e-mail and Internet services are available
domestic: intercity traffic by wire, microwave radio relay, and radiotelephone communication stations, fixed and mobile cellular systems for short-range traffic
international: country code – 256; satellite earth stations – 1 Intelsat (Atlantic Ocean) and 1 Inmarsat; analog links to Kenya and Tanzania
Ukrainegeneral assessment: Ukraine’s telecommunication development plan, running through 2005, emphasizes improving domestic trunk lines, international connections, and the mobile cellular system
domestic: at independence in December 1991, Ukraine inherited a telephone system that was antiquated, inefficient, and in disrepair; more than 3.5 million applications for telephones could not be satisfied; telephone density is rising and the domestic trunk system is being improved; about one-third of Ukraine’s networks are digital and a majority of regional centers now have digital switching stations; improvements in local networks and local exchanges continue to lag; the mobile cellular telephone system is expanding rapidly
international: country code – 380; 2 new domestic trunk lines are a part of the fiber-optic Trans-Asia-Europe (TAE) system and 3 Ukrainian links have been installed in the fiber-optic Trans-European Lines (TEL) project that connects 18 countries; additional international service is provided by the Italy-Turkey-Ukraine-Russia (ITUR) fiber-optic submarine cable and by earth stations in the Intelsat, Inmarsat, and Intersputnik satellite systems
United Arab Emiratesgeneral assessment: modern fiber-optic integrated services; digital network with rapidly growing use of mobile cellular telephones; key centers are Abu Dhabi and Dubai
domestic: microwave radio relay, fiber optic and coaxial cable
international: country code – 971; linked to the international submarine cable FLAG (Fiber-Optic Link Around the Globe); landing point for both the SEA-ME-WE-3 AND SEA-ME-WE-4 submarine cable networks; satellite earth stations – 3 Intelsat (1 Atlantic Ocean and 2 Indian Ocean) and 1 Arabsat; tropospheric scatter to Bahrain; microwave radio relay to Saudi Arabia
United Kingdomgeneral assessment: technologically advanced domestic and international system
domestic: equal mix of buried cables, microwave radio relay, and fiber-optic systems
international: country code – 44; numerous submarine cables provide links throughout Europe, Asia, Australia, the Middle East, and US; satellite earth stations – 10 Intelsat (7 Atlantic Ocean and 3 Indian Ocean), 1 Inmarsat (Atlantic Ocean region), and 1 Eutelsat; at least 8 large international switching centers
United Statesgeneral assessment: a large, technologically advanced, multipurpose communications system
domestic: a large system of fiber-optic cable, microwave radio relay, coaxial cable, and domestic satellites carries every form of telephone traffic; a rapidly growing cellular system carries mobile telephone traffic throughout the country
international: country code – 1; multiple ocean cable systems provide international connectivity; satellite earth stations – 61 Intelsat (45 Atlantic Ocean and 16 Pacific Ocean), 5 Intersputnik (Atlantic Ocean region), and 4 Inmarsat (Pacific and Atlantic Ocean regions) (2000)
Uruguaygeneral assessment: fully digitalized
domestic: most modern facilities concentrated in Montevideo; new nationwide microwave radio relay network; overall fixed-line and mobile-cellular teledensity is approaching 100 telephones per 100 persons
international: country code – 598; the UNISOR submarine cable system provides direct connectivity to Brazil and Argentina; satellite earth stations – 2 Intelsat (Atlantic Ocean) (2002)
Uzbekistangeneral assessment: antiquated and inadequate; in serious need of modernization
domestic: the main line telecommunications system is dilapidated and telephone density is low; the state-owned telecom company, Uzbektelecom, is using a US$110 million loan from the Japanese government to improve main line services; mobile services are growing swiftly, with the subscriber base more than doubling in 2007 to 5.8 million
international: country code – 998; linked by landline or microwave radio relay with CIS member states and to other countries by leased connection via the Moscow international gateway switch; after the completion of the Uzbek link to the Trans-Asia-Europe (TAE) fiber-optic cable, Uzbekistan will be independent of Russian facilities for international communications (2006)
Vanuatugeneral assessment: NA
domestic: NA
international: country code – 678; satellite earth station – 1 Intelsat (Pacific Ocean)
Venezuelageneral assessment: modern and expanding
domestic: domestic satellite system with 3 earth stations; recent substantial improvement in telephone service in rural areas; substantial increase in digitalization of exchanges and trunk lines; installation of a national interurban fiber-optic network capable of digital multimedia services; fixed-line teledensity, at 16 per 100 persons, is low by regional standards; mobile-cellular subscribership jumped 50 percent in 2006
international: country code – 58; submarine cable systems provide connectivity to the Caribbean, Central and South America, and US; satellite earth stations – 1 Intelsat (Atlantic Ocean) and 1 PanAmSat; participating with Colombia, Ecuador, Peru, and Bolivia in the construction of an international fiber-optic network
Vietnamgeneral assessment: Vietnam is putting considerable effort into modernization and expansion of its telecommunication system, but its performance continues to lag behind that of its more modern neighbors
domestic: all provincial exchanges are digitalized and connected to Hanoi, Da Nang, and Ho Chi Minh City by fiber-optic cable or microwave radio relay networks; main lines have been substantially increased, and the use of mobile telephones is growing rapidly
international: country code – 84; a landing point for the SEA-ME-WE-3, the C2C, and Thailand-Vietnam-Hong Kong submarine cable systems; the Asia-America Gateway submarine cable system, scheduled for completion by the end of 2008, will provide new access links to Asia and the US; satellite earth stations – 2 Intersputnik (Indian Ocean region)
Virgin Islandsgeneral assessment: modern system with total digital switching, uses fiber-optic cable and microwave radio relay
domestic: full range of services available
international: country code – 1-340; submarine cable connections to US, the Caribbean, Central and South America; satellite earth stations – NA
Wake Islandgeneral assessment: satellite communications; 2 DSN circuits off the Overseas Telephone System (OTS)
domestic: NA
international: NA
Wallis and Futunageneral assessment: NA
domestic: NA
international: country code – 681
West Bankgeneral assessment: NA
domestic: Israeli company BEZEK and the Palestinian company PALTEL are responsible for fixed line services; the Palestinian JAWAL company provides cellular services
international: country code – 970 (2004)
Western Saharageneral assessment: sparse and limited system
domestic: NA
international: country code – 212; tied into Morocco’s system by microwave radio relay, tropospheric scatter, and satellite; satellite earth stations – 2 Intelsat (Atlantic Ocean) linked to Rabat, Morocco
Worldgeneral assessment: NA
domestic: NA
international: NA
Yemengeneral assessment: since unification in 1990, efforts have been made to create a national telecommunications network
domestic: the national network consists of microwave radio relay, cable, tropospheric scatter, and GSM cellular mobile telephone systems; fixed-line and mobile-cellular teledensity remains low by regional standards
international: country code – 967; landing point for the international submarine cable Fiber-Optic Link Around the Globe (FLAG); satellite earth stations – 3 Intelsat (2 Indian Ocean and 1 Atlantic Ocean), 1 Intersputnik (Atlantic Ocean region), and 2 Arabsat; microwave radio relay to Saudi Arabia and Djibouti
Zambiageneral assessment: facilities are aging but still among the best in Sub-Saharan Africa
domestic: high-capacity microwave radio relay connects most larger towns and cities; several cellular telephone services in operation and network coverage is improving; Internet service is widely available; very small aperture terminal (VSAT) networks are operated by private firms
international: country code – 260; satellite earth stations – 2 Intelsat (1 Indian Ocean and 1 Atlantic Ocean)
Zimbabwegeneral assessment: system was once one of the best in Africa, but now suffers from poor maintenance; more than 100,000 outstanding requests for connection despite an equally large number of installed but unused main lines
domestic: consists of microwave radio relay links, open-wire lines, radiotelephone communication stations, fixed wireless local loop installations, and a substantial mobile cellular network; Internet connection is available in Harare and planned for all major towns and for some of the smaller ones
international: country code – 263; satellite earth stations – 2 Intelsat; 2 international digital gateway exchanges (in Harare and Gweru)