-
1 wartime position
Военный термин: позиция военного времени -
2 wartime position
-
3 position
позиция; положение; местонахождение; местоположение; район; точка стояния; рабочее место ( оператора) ; состояние; должность; перемещать ( в определенное положение) ; определять местонахождение; размещать; развертывать; дислоцировать; см. тж. site— defiladed position— delaying position— direct laying position— forward deiaying position— indirect laying position— initial delaying position— rear defensive position— rearward delaying position— switching position— turret-above cover position— turret-down cover position -
4 operation
операция; кампания; боевые [военные] действия; бой; сражение; эксплуатация; обслуживание; работа; pl. оперативное управление [отдел, отделение]; см. тж. action, battle, combatcounter C3 operation — операция [действия] против систем руководства, управления и связи [оперативного управления и связи]
counternaval forces naval operation (in closed or open offshore areas) — морская операция по разгрому ВМС противника (в закрытых или прилегающих к побережью открытых морских районах)
— breaching operation— exploitation-type operation— guarding security operations— missile operations— tactical operations— urban ized operations* * * -
5 system
система; комплекс; средство; способ; метод; сеть (напр. дорог) ;aiming-navigation system (analog, digital) — прицельно-навигационная система (аналоговая, цифровая)
air observation, acquisition and fire control system — (бортовая) система воздушной разведки, засечки целей и управления огнем
air support aircraft ECM (equipment) system — (бортовая) система РЭП для самолетов авиационной поддержки
airborne (ground) target acquisition and illumination laser system — ав. бортовая лазерная система обнаружения и подсветки (наземных) целей
airborne (ground) targeting and laser designator system — ав. бортовая лазерная система обнаружения и целеуказания (наземных целей)
airborne laser illumination, ranging and tracking system — ав. бортовая система лазерной подсветки, определения дальности и сопровождения цели
artillery (nuclear) delivery system — артиллерийская система доставки (ядерного) боеприпаса (к цели)
C2 system — система оперативного управления; система руководства и управления
C3 system — система руководства, управления и связи; система оперативного управления и связи
channel and message switching (automatic) communications system — АСС с коммутацией каналов и сообщений
country-fair type rotation system (of instruction) — метод одновременного обучения [опроса] нескольких учебных групп (переходящих от одного объекта изучения к другому)
dual-capable (conventional/nuclear) weapon delivery system — система доставки (обычного или ядерного) боеприпаса к цели
electromagnetic emitters identification, location and suppression system — система обнаружения, опознавания и подавления источников электромагнитных излучений [излучающих РЭС]
field antimissile (missile) system — полевой [войсковой] ПРК
fire-on-the-move (air defense) gun system — подвижный зенитный артиллерийский комплекс для стрельбы в движении [на ходу]
fluidic (missile) control system — ркт. гидравлическая [струйная] система управления полетом
forward (area) air defense system — система ПВО передового района; ЗРК для войсковой ПВО передового района
graduated (availability) operational readiness system — Бр. система поэтапной боевой готовности (частей и соединений)
high-resolution satellite IR detection, tracking and targeting system — спутниковая система с ИК аппаратурой высокой разрешающей способности для обнаружения, сопровождения целей и наведения средств поражения
ICBM (alarm and) early warning satellite system — спутниковая система обнаружения пусков МБР и раннего предупреждения (средств ПРО)
information storage, tracking and retrieval system — система накопления, хранения и поиска информации
instantaneous grenade launcher (armored vehicle) smoke system — гранатомет (БМ) для быстрой постановки дымовой завесы
Precision Location [Locator] (and) Strike system — высокоточная система обеспечения обнаружения и поражения целей; высокоточный разведывательно-ударный комплекс
rapid deceleration (parachute) delivery system — парашютная система выброски грузов с быстрым торможением
real time, high-resolution reconnaissance satellite system — спутниковая разведывательная система с высокой разрешающей способностью аппаратуры и передачей информации в реальном масштабе времени
received signal-oriented (output) jamming signal power-adjusting ECM system — система РЭП с автоматическим регулированием уровня помех в зависимости от мощности принимаемого сигнала
sea-based nuclear (weapon) delivery system — система морского базирования доставки ядерного боеприпаса к цели
small surface-to-air ship self-defense (missile) system — ЗРК ближнего действия для самообороны корабля
Status Control, Alerting and Reporting system — система оповещения, контроля и уточнения состояния [боевой готовности] сил и средств
surface missile (weapon) system — наземный [корабельный] РК
target acquisition, rapid designation and precise aiming system — комплекс аппаратуры обнаружения цели, быстрого целеуказания и точного прицеливания
— ABM defense system— antimissile missile system— central weapon system— countersurprise military system— laser surveying system— tank weapon system— vertical launching system— weapons system -
6 test
испытание; тест, проверка; экзамен; проверять; испытывать; испытательный; пробный; контрольный, проверочный; см. тж. testingnuclear (weapon) test (in the atmosphere, space, underground, underwater) — испытание ЯО (в атмосфере, космосе, под землей, под водой)
— developmental tests— end-of-cycle proficiency test— hands-on skill test -
7 Wolfram
Deposits of the mineral wolfram or tungsten ore are found in central and northern Portugal. Essential for the war industry, for hardening steel in aircraft, tanks, small arms, artillery, and ammunition, wolfram played an unexpectedly important part in Portugal's economy and society during World War II when the belligerents sought large supplies of it. Nazi Germany had its principal supplies of wolfram in Asia, until its invasion of the Soviet Union in June 1941 cut off these supply routes. Thereafter, Germany sought to acquire wolfram in Spain and Portugal, which between them possessed the largest wolfram deposits in Europe.Wolfram had been mined in Portugal since 1900, in the mountainous Beira Alta province. As of 3 September 1939, when Portugal declared its neutrality, most of the wolfram mines were owned by British and American firms, but the post-1941 wartime demand for it had an impact on Portugal's economy, finance, and neutrality. Although the Allies could obtain most of their tungsten ore in North America, Germany came to depend on exports from wolfram mines in Portugal and Spain. To obtain more wolfram supplies, Germany arranged to purchase wolfram mines, as well as to purchase and import wolfram from mines owned by Portuguese investors. To thwart the German wolfram program, the British and Americans launched an extensive wolfram preemption program that cost more than $US1 billion during the period from 1942 to 1944.The booming wolfram industry had a significant, if brief, impact on the poor, rural regions where the mines were located, and there was increased income and employment. Wolfram revenues for Portugal also affected its position as a debtor to ally Britain and, by the end of the war, Britain owed Portugal more than 90 million pounds for war-related products and services. After the war, this windfall enabled Portugal to upgrade its merchant marine fleet. Complex diplomatic negotiations between Portugal and both sets of belligerents ensued, and "the wolfram question" represented a foreign policy nightmare for Prime Minister Antônio de Oliveira Salazar. On 6 June 1944, Salazar came to a controversial decision about wolfram. In what was hoped to be perceived as an even-handed new policy, to satisfy both the Allies and the Axis, Portugal decreed a halt to the wolfram industry for the remainder of the war. Thus, within a few weeks, the wolfram mines were closed, and all mining, sales, and export of the mineral ceased. It was not until the 1950s that wolfram mines reopened. However, the industry gradually declined and, at present, wolfram mining and production is relatively small. -
8 Poniatoff, Alexander Mathew
[br]b. 25 March 1892 Kazan District, Russiad. 24 October 1980[br]Russian (naturalized American in 1932) electrical engineer responsible for the development of the professional tape recorder and the first commercially-successful video tape recorder (VTR).[br]Poniatoff was educated at the University of Kazan, the Imperial College in Moscow, and the Technische Hochschule in Karlsruhe, gaining degrees in mechanical and electrical engineering. He was in Germany when the First World War broke out, but he managed to escape back to Russia, where he served as an Air Force pilot with the Imperial Russian Navy. During the Russian Revolution he was a pilot with the White Russian Forces, and escaped into China in 1920; there he found work as an assistant engineer in the Shanghai Power Company. In 1927 he immigrated to the USA, becoming a US citizen in 1932. He obtained a post in the research and development department of the General Electric Company in Schenectady, New York, and later at Dalmo Victor, San Carlos, California. During the Second World War he was involved in the development of airborne radar for the US Navy.In 1944, taking his initials to form the title, Poniatoff founded the AMPEX Corporation to manufacture components for the airborne radar developed at General Electric, but in 1946 he turned to the production of audio tape recorders developed from the German wartime Telefunken Magnetophon machine (the first tape recorder in the truest sense). In this he was supported by the entertainer Bing Crosby, who needed high-quality replay facilities for broadcasting purposes, and in 1947 he was able to offer a professional-quality product and the business prospered.With the rapid post-war boom in television broadcasting in the USA, a need soon arose for a video recorder to provide "time-shifting" of live TV programmes between the different US time zones. Many companies therefore endeavoured to produce a video tape recorder (VTR) using the same single-track, fixed-head, longitudinal-scan system used for audio, but the very much higher bandwidth required involved an unacceptably high tape-speed. AMPEX attempted to solve the problem by using twelve parallel tracks and a machine was demonstrated in 1952, but it proved unsatisfactory.The development team, which included Charles Ginsburg and Ray Dolby, then devised a four-head transverse-scan system in which a quadruplex head rotating at 14,400 rpm was made to scan across the width of a 2 in. (5 cm) tape with a tape-to-head speed of the order of 160 ft/sec (about 110 mph; 49 m/sec or 176 km/h) but with a longitudinal tape speed of only 15 in./sec (0.38 m/sec). In this way, acceptable picture quality was obtained with an acceptable tape consumption. Following a public demonstration on 14 April 1956, commercial produc-tion of studio-quality machines began to revolutionize the production and distribution of TV programmes, and the perfecting of time-base correctors which could stabilize the signal timing to a few nanoseconds made colour VTRs a practical proposition. However, AMPEX did not rest on its laurels and in the face of emerging competition from helical scan machines, where the tracks are laid diagonally on the tape, the company was able to demonstrate its own helical machine in 1957. Another development was the Videofile system, in which 250,000 pages of facsimile could be recorded on a single tape, offering a new means of archiving information. By 1986, quadruplex VTRs were obsolete, but Poniatoff's role in making television recording possible deserves a place in history.Poniatoff was President of AMPEX Corporation until 1955 and then became Chairman of the Board, a position he held until 1970.[br]Further ReadingA.Abrahamson, 1953, "A short history of television recording", Part I, JSMPTE 64:73; 1973, Part II, Journal of the Society of Motion Picture and Television Engineers, 82:188 (provides a fuller background).Audio Biographies, 1961, ed. G.A.Briggs, Wharfedale Wireless Works, pp. 255–61 (contains a few personal details about Poniatoff's escape from Germany to join the Russian Navy).E.Larsen, 1971, A History of Invention.Charles Ginsburg, 1981, "The horse or the cowboy. Getting television on tape", Journal of the Royal Television Society 18:11 (a brief account of the AMPEX VTR story).KF / GB-NBiographical history of technology > Poniatoff, Alexander Mathew
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