翻訳と辞書
Words near each other
・ Airline Deregulation Act
・ Airline Disaster
・ Airline Highway
・ Airline Highway (play)
・ Airline hub
・ Airline meal
・ Airline Partners Australia
・ Airline pilot uniforms
・ Airline reservations system
・ Airline seat
・ Airline seating sex discrimination controversy
・ Airline service trolley
・ Airline staff travel
・ Airline Superintendents Association
・ Airline Tariff Publishing Company
Airline teletype system
・ Airline ticket
・ Airline timetable
・ Airline Transport Pilot
・ Airline Transport Pilot Licence
・ Airline Tycoon
・ Airline, Texas
・ Airliner
・ Airliner World
・ AirlineReporter.com
・ Airliners (magazine)
・ Airliners.net
・ Airlines (video game)
・ Airlines for America
・ Airlines of Africa


Dictionary Lists
翻訳と辞書 辞書検索 [ 開発暫定版 ]
スポンサード リンク

Airline teletype system : ウィキペディア英語版
Airline teletype system

The Airline Teletype System uses teleprinters, which are electro-mechanical typewriters that can communicate typed messages from point to point through simple electric communications channels, often just pairs of wires. The most modern form of these devices are fully electronic and use a screen, instead of a printer.
==Historical development==
The airline industry began using teletypewriter technology in the early 1920s using radio stations located at 10 airfields in the United States. The US Post Office and other US government agencies used these radio stations for transmitting telegraph messages. It was during this period that the first federal teletypewriter system was introduced in the United States to allow weather and flight information to be exchanged between air traffic facilities. While the use of physical teletypes is almost extinct, the message formats and switching concepts remain similar.
In 1929, Aeronautical Radio Incorporated (ARINC) was formed to manage radio frequencies and license allocation in the United States, as well as to support the radio stations that were used by the emerging airlines, a role ARINC still fulfils today. ARINC is a private company originally owned by many of the world's airlines including; American Airlines, Continental Airlines, British Airways, Air France, and SAS although it is now owned by Rockwell Collins.
In 1949, the Société Internationale de Télécommunication Aeronautique (SITA) was formed as a cooperative by 11 airlines: Air France, KLM, Sabena, Swissair, TWA, British European Airways, British Overseas Airways Corporation, British South American Airways, Swedish A. B. Aerotransport, Danish Det Danske Luftfartselskab A/S, and Norwegian Det Norske Luftfartselskap. Their aim was to enable airlines to be able to use the existing communications facilities in the most efficient manner.
Morse code was the general means of relaying information between air communications stations prior to World War II. Generally, it was only necessary to relay a message between one or two stations. After World War II, there was an increase in the number of commercial aircraft operating, and these aircraft were capable of flying greater distances than in the past. As a result, the Aeronautical Fixed Telecommunications Network (AFTN) was implemented worldwide as a means of relaying the air traffic communications, sometimes through the use of radioteletype which had become common among military forces in the 1940s.
Today, the airline industry continues to use teletypewriter messages over ARINC, SITA or AFTN networks as a medium for communicating via messages. Most teletypewriter messages are machine-generated by automatic processes.〔() What Airline IT〕 IATA standardised teletype message formats throughout the airline industry.〔(ATA/IATA Reservations Interline Message Procedures - Passenger (AIRIMP) ) IATA〕
Recently there have been initiatives in the industry to tackle the high cost of the existing Type B network by deploying secured peer-to-peer solutions, e.g. EDIfly, developed by Innovative Software SARL in Luxemburg and used by companies like Cargolux, TAP, SATS etc. Such solutions allow users to exchange unrestricted amounts of Type B data over the public internet, while maintaining all existing addressing schemes and message identification. Web-based technology also enables the community to expand the usage and removes shortcomings in the existing Type B exchange (limited to 5000 characters). The success of such initiatives will improve processing of operational data for all stakeholders in the industry and provide expanded usage until newer technology like XML become the norm in most operational systems in system of all stakeholders in the aviation scene across all continents.
〔() UNISYS〕
〔() AIR CARGO WORLD〕

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
ウィキペディアで「Airline teletype system」の詳細全文を読む



スポンサード リンク
翻訳と辞書 : 翻訳のためのインターネットリソース

Copyright(C) kotoba.ne.jp 1997-2016. All Rights Reserved.