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81 system
1) система || системный3) вчт операционная система; программа-супервизор5) вчт большая программа6) метод; способ; алгоритм•system halted — "система остановлена" ( экранное сообщение об остановке компьютера при наличии серьёзной ошибки)
- CPsystem- H-system- h-system- hydrogen-air/lead battery hybrid system- Ksystem- Lsystem- L*a*b* system- master/slave computer system- p-system- y-system- Δ-system -
82 S.M.A.R.T.
сокр. от Self-Monitoring, Analysis and Reporting Technology; тж. SMARTтехнология, предназначенная для повышения надежности работы жестких дисков и базирующаяся на предсказании сбоев в их работеEnglish-Russian dictionary of computer science and programming > S.M.A.R.T.
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83 SMART
= S.M.A.R.T(Self-Monitoring Analysis and Reporting Technology) технология самоконтроля, анализа и составления диагностических отчётов, технология SMARTсистема активного контроля за состоянием электронных и механических узлов диска. Программа, зашитая в контроллер диска, периодически измеряет несколько десятков стандартизованных характеристик диска и сохраняет их в энергонезависимой памяти контроллера. Поддерживается рядом производителей дисковых накопителей. Позволяет утилитам диагностировать состояние жёстких дисковсм. тж. hard diskАнгло-русский толковый словарь терминов и сокращений по ВТ, Интернету и программированию. > SMART
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84 equipment
1) оборудование; аппаратура2) оснащение3) устройство•- active equipment
- airborne-electrooptical equipment
- amplifying equipment
- amplitude-modulation equipment
- analog-facsimile equipment
- audio equipment
- audio-visual equipment
- automatic-answerback equipment
- automatic-switching equipment
- auxiliary audio equipment
- backup equipment
- built-in equipment
- cable-input equipment
- calling equipment
- channel-dividing equipment
- channel-multiplexing equipment
- ciphony equipment
- command-data equipment
- communication security equipment
- COMSEC equipment
- conference communication equipment
- container-point communication equipment
- control-signaling equipment
- cross equipment
- customer-premises equipment
- data-circuit terminating equipment
- data-communication equipment
- data-compression equipment
- data-processing equipment
- data-terminal equipment
- data-transcription equipment
- data-transmission equipment
- dialing equipment
- dial-switching equipment
- digital-facsimile equipment
- digital-intercontinental conversion equipment
- domestic radioelectronic equipment
- duplex telegraph exchange equipment
- duplex universal trunking equipment
- emergency automation equipment
- explosion-proof equipment
- facsimile-telegraph equipment
- field equipment
- FIP equipment
- floor equipment
- grandfathered-terminal equipment
- ground communication equipment
- hoister-to-cage communication equipment
- hydroacoustical equipment
- image pick-up equipment
- inductive communication equipment
- industrial RF-equipment
- information technology equipment
- in-plant equipment
- input/output equipment
- input-and-monitoring equipment
- interface equipment
- intermediate conversion equipment
- ISDN-compatible equipment
- letter-printing fidelity increasing equipment
- limited-protection voice equipment
- line path equipment
- loudspeaking fireproof communication equipment
- magnetic-drum receiving equipment
- marine radiocommunication equipment
- medical electric equipment
- medical RF-equipment
- mine's exchange equipment
- movable HF-communication equipment
- network termination equipment
- new-customer premises equipment
- nonstationary equipment
- operative communication equipment
- photofacsimile equipment
- portable equipment
- protection equipment
- radioelectronic aircraft equipment
- radioelectronic satellite equipment
- radiopoint equipment
- radiotelegraph equipment
- railway-crossing communication equipment
- remote announcement equipment
- remote control equipment
- repeating equipment
- scientific RF-equipment
- security equipment
- selective communication equipment
- selective digital call equipment
- service equipment
- service-channel equipment
- signal-equalizing equipment
- signal-generating equipment
- signal-processing equipment
- sound transmission equipment
- spark-safe digital communication equipment
- stand-alone radiotelephone system equipment
- standard channel derivation equipment
- start-stop synchronous equipment
- station equipment
- studio equipment
- submarine communication equipment
- subscriber equipment
- switching equipment
- telecine equipment
- telecontrol equipment
- telegraph equipment equipment
- telemechanic equipment
- telemonitoring equipment
- terminal equipment
- testing-measuring equipment
- thirty-channel digital equipment
- through-group equipment
- through-supergroup equipment
- tone-telegraphing equipment
- transmission equipment
- TRI-TAC equipment
- trunking equipment
- USB-communication marine equipment
- USB-communication water transport equipment
- VHF radiotelephone two-way equipment
- video equipment
- wire diving communication equipment
- wireless diving communication equipmentEnglish-Russian dictionary of telecommunications and their abbreviations > equipment
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85 program
программа; план; задача; составлять программу [план]; планировать; программировать, задавать программу (напр. ЭВМ)morale, welfare and recreation program — программа мероприятий по бытовому обеспечению, организации отдыха и развлечений
rationalization, standardization and interoperability program — программа рационализации, стандартизации и интероперабельности (оборудования)
telecommunications and C2 program — программа создания систем руководства, управления и (дальней) связи
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86 SMART
сокр. от self-monitoring, analysis and reporting technologyтехнология самоконтроля, анализа и представления -
87 SMART
сокр. от Self-Monitoring, Analysis and Reporting Technologyтехнология самомониторинга, анализа и вывода отчетов; средства анализа и выдачи сообщений самомониторинга; технология самоконтроля, анализа и вывода отчета -
88 monitor
monitor ['mɒnɪtə(r)]1 noun∎ dinner monitor = élève chargé de veiller au bon déroulement des repas à la cantine∎ their progress is carefully monitored leurs progrès sont suivis de près;∎ the FBI is monitoring his movements le FBI surveille ses déplacements;∎ this instrument monitors the pulse rate cet instrument surveille le pouls du patient(b) (broadcasts, telephone conversation) écouter►► Zoology monitor lizard varan m -
89 Forsmann, Werner Theodor Otto
SUBJECT AREA: Medical technology[br]b. 29 August 1904 Berlin, Germanyd. 1 June 1979 Schofheim, Germany[br]German cardiologist and surgeon, pioneer of cardiac catheterization in humans.[br]Forsmann studied medicine at the University of Berlin, graduating in 1929. He later became chief of the surgical clinic in Dresden-Friedrichstadt, and in 1958 he became head of the surgical division of the Evangelical Hospital in Düsseldorf.Intravascular catheterization had been undertaken in research with animals by Marey in 1861, and had been used in 1912 by Unger et al. in the treatment of puerperal sepsis. In 1929 Forsmann inserted a catheter into his own cubital vein and up into the heart, monitoring its position with X-rays. Continuing experiments demonstrated that it was possible to undertake radiographic studies of the heart using contrast media. Despite the outstanding potential of the technique, its immediate adoption was held to present unacceptable dangers; it was not until developments in anaesthesia and antibiotics that the technique achieved its present position as a routine investigation permitting the widespread practice of angiocardiography. Deterred by criticism, Forsmann turned his energies to urology, gaining much distinction in this field.[br]Principal Honours and DistinctionsNobel Prize for Medicine or Physiology (jointly with A.F.Cournand and D.W.Richards) 1956.Bibliography1929, "Die Sonderung des rechten Herzens", Klin. Woch.Further ReadingJ.A.Meyer, 1990, "Werner Forsmann and the catheterisation of the heart", Ann. Thorac. Surg.MGBiographical history of technology > Forsmann, Werner Theodor Otto
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90 Riva-Rocci, Scipione
SUBJECT AREA: Medical technology[br]b. 7 August 1863 Almese, Piedmont, Italyd. 15 March 1937 Rapallo, Liguria, Italy[br]Italian physician, inventor and developer of the mercury sphygmomanometer for the measurement of blood pressure.[br]After graduating in medicine and surgery in 1888 from the University of Turin, he was appointed Assistant Lecturer at the University under Forlanini. In 1893 he followed Forlanini to Pavia, where for twenty-eight years he was Director and Head Physician of the Ospedale di Varese. From 1908 until 1921 he was also Lecturer in Paediatrics. He invented the sphygmomanometer in 1896 and its use was greatly encouraged by the support of Cushing, who visited Pavia in 1901 and was convinced of its value in the monitoring of anaesthesia, particularly in connection with intracranial surgery.[br]Bibliography1896, "Un nuovo sfigmomanometro", Gazzetta Medica, di Torino 447.Further ReadingJ.F.Fulton, 1946, Harvey Cushing: A Biography, Springfield, Ill.MG -
91 Watson-Watt, Sir Robert Alexander
[br]b. 13 April 1892 Brechin, Angus, Scotlandd. 6 December 1973 Inverness, Scotland[br]Scottish engineer and scientific adviser known for his work on radar.[br]Following education at Brechin High School, Watson-Watt entered University College, Dundee (then a part of the University of St Andrews), obtaining a BSc in engineering in 1912. From 1912 until 1921 he was Assistant to the Professor of Natural Philosophy at St Andrews, but during the First World War he also held various posts in the Meteorological Office. During. this time, in 1916 he proposed the use of cathode ray oscillographs for radio-direction-finding displays. He joined the newly formed Radio Research Station at Slough when it was opened in 1924, and 3 years later, when it amalgamated with the Radio Section of the National Physical Laboratory, he became Superintendent at Slough. At this time he proposed the name "ionosphere" for the ionized layer in the upper atmosphere. With E.V. Appleton and J.F.Herd he developed the "squegger" hard-valve transformer-coupled timebase and with the latter devised a direction-finding radio-goniometer.In 1933 he was asked to investigate possible aircraft counter-measures. He soon showed that it was impossible to make the wished-for radio "death-ray", but had the idea of using the detection of reflected radio-waves as a means of monitoring the approach of enemy aircraft. With six assistants he developed this idea and constructed an experimental system of radar (RAdio Detection And Ranging) in which arrays of aerials were used to detect the reflected signals and deduce the bearing and height. To realize a practical system, in September 1936 he was appointed Director of the Bawdsey Research Station near Felixstowe and carried out operational studies of radar. The result was that within two years the East Coast of the British Isles was equipped with a network of radar transmitters and receivers working in the 7–14 metre band—the so-called "chain-home" system—which did so much to assist the efficient deployment of RAF Fighter Command against German bombing raids on Britain in the early years of the Second World War.In 1938 he moved to the Air Ministry as Director of Communications Development, becoming Scientific Adviser to the Air Ministry and Ministry of Aircraft Production in 1940, then Deputy Chairman of the War Cabinet Radio Board in 1943. After the war he set up Sir Robert Watson-Watt \& Partners, an industrial consultant firm. He then spent some years in relative retirement in Canada, but returned to Scotland before his death.[br]Principal Honours and DistinctionsKnighted 1942. CBE 1941. FRS 1941. US Medal of Merit 1946. Royal Society Hughes Medal 1948. Franklin Institute Elliot Cresson Medal 1957. LLD St Andrews 1943. At various times: President, Royal Meteorological Society, Institute of Navigation and Institute of Professional Civil Servants; Vice-President, American Institute of Radio Engineers.Bibliography1923, with E.V.Appleton \& J.F.Herd, British patent no. 235,254 (for the "squegger"). 1926, with J.F.Herd, "An instantaneous direction reading radio goniometer", Journal ofthe Institution of Electrical Engineers 64:611.1933, The Cathode Ray Oscillograph in Radio Research.1935, Through the Weather Hours (autobiography).1936, "Polarisation errors in direction finders", Wireless Engineer 13:3. 1958, Three Steps to Victory.1959, The Pulse of Radar.1961, Man's Means to his End.Further ReadingS.S.Swords, 1986, Technical History of the Beginnings of Radar, Stevenage: Peter Peregrinus.KFBiographical history of technology > Watson-Watt, Sir Robert Alexander
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92 noise
noise nшумacoustic noiseакустический шумactual noise level measurementизмерение фактического уровня шумаactual sideline noise levelбоковой фактический уровень шумаaerodynamic noiseаэродинамический шумaggregate noise durationпродолжительность суммарного шумаaircraft noise abatement operating proceduresэксплуатационные методы снижения авиационного шумаaircraft noise annoyanceраздражающее воздействие шума от воздушного судaircraft noise certificateсертификат воздушного судна по шумуaircraft noise pollutionвредное воздействие шума от воздушных судовaircraft noise prediction programпрограмма прогнозирования авиационного шумаairport noise contourконтур уровня шума в районе аэропортаambient noiseшум окружающей средыambient noise levelуровень окружающего шумаapproach noise angleугол распространения шума при заходе на посадкуapproach noise levelуровень шума при заходе на посадкуapproach noise measurementизмерение шума при заходе на посадкуapproach noise pathтраектория распространения шумаapproach noise reference pointконтрольная точка замера шумов на участке захода на посадкуatmospheric noiseатмосферный шумattenuate noiseослаблять шумaugmented lift system noiseшум от системы увеличения подъемной силыcertificated noise levelсертификационный уровень шумаCommittee on Aircraft NoiseКомитет по авиационному шумуcommunity noise levelуровень шума в населенном пунктеcomposite noise ratingкомплексный показатель уровня шумаcontinuous perceived noise levelуровень непрерывно воспринимаемого шумаcontour of perceived noiseконтур воспринимаемого шумаcorrugated noise suppressorгофрированный глушитель шумаcurrent noise technology standardдействующий технологический стандарт по шумуdesign noise levelрасчетный уровень шумаdipole-type noise fieldзвуковое поле дипольного источникаdirectional noise measurementизмерение направления шумаduration of noise effectпродолжительность воздействия шумаenvironment control system noiseшум от системы кондиционированияequal noise contourконтур равного уровня шумаexhaust noise suppressorглушитель шума на выхлопеflight test noise measurementизмерение шума в процессе летных испытанийflyover noiseшум при пролетеflyover noise levelуровень полетного шумаflyover noise limitдопустимый предел шума при полетеflyover noise measurementизмерение шума при пролетеflyover noise testиспытание на шум при пролетеgeneralized noise characteristicsобобщенные характеристики по шумуground run-up noise abatementснижение шума при опробовании двигателей на землеignition noiseпомехи от системы зажиганияjet noiseшум реактивной струиjet noise prediction techniqueметод прогнозирования шума реактивных двигателейlanding noiseшум при посадкеlateral noise measurement distanceбоковое расстояние до точки измерения шумаlevel flight noise requirementsнормы шума при полетах на эшелонеmain rotor noiseшум от несущего винтаmaximum permissible noise levelмаксимально допустимый уровень шумаmeasured noise dataданные измеренного шумаminimum noise procedureметодика выполнения полета с минимальным шумомminimum noise routeмаршрут с минимальным уровнем шумаnoise abatement deviceустройство для снижения уровня шумаnoise abatement measuresмеры по снижению шумаnoise abatement proceduresэксплуатационные приемы снижения шумаnoise abatement takeoffвзлет на режимах работы двигателей, составляющих наименьший шумnoise abatement techniqueспособ снижения шумаnoise abatement thrust cutbackуменьшение тяги с целью снижения шумаnoise absorbing wedgeшумопоглощающий клинnoise absorptionпоглощение шумаnoise absorption coefficientкоэффициент поглощения шумаnoise annoyance rating systemсистема оценки раздражающего воздействия шумаnoise attenuationзатухание шумаnoise cancellingподавление шумовnoise carpetзона распространения шумаnoise certification approach pathтраектория захода на посадку, сертифицированная по шумуnoise certification procedureметодика сертификации по шумуnoise certification reference conditionsисходные условия сертификации по шумуnoise certification schemeпрограмма сертификации по шумуnoise certification standardсертификационный стандарт по шумуnoise certification takeoff flight pathтраектория взлета, сертифицированная по шумуnoise certification test conditionsусловия сертификационных испытаний по шумуnoise characteristicsхарактеристики по шумуnoise chargeштраф за превышение установленного уровня шумаnoise controlконтроль уровня шумаnoise control techniqueметод контроля шумаnoise curfewзапрет полетов из-за превышения допустимого уровня шумаnoise directivityнаправленность шумаnoise dissipationрассеивание шумаnoise disturbanceшумовые помехиnoise dose contourконтур уровня шумаnoise environmentшумовая обстановкаnoise evaluationоценка уровня шумаnoise evaluation methodметод оценки шумаnoise evaluation procedureметодика оценки шумаnoise exposure assessment methodметод оценки воздействия шумаnoise exposure contourконтур воздействия шумаnoise exposure forecastпредполагаемое воздействие шумаnoise fieldобласть воздействия шумаnoise filterфильтр радиопомехnoise floorуровень шумаnoise footprintшумовой следnoise generationвозникновение шумаnoise immunityзащищенность от шумаnoise insulationзвукоизоляцияnoise levelуровень шумаnoise level attenuation curveкривая снижения уровня шумаnoise level radiationизлучение шума определенного уровняnoise level valueвеличина уровня шумаnoise mapсхема распространения шумовnoise measurement locationточка измерения шумаnoise measurement procedureметодика замера шумовnoise meterшумомерnoise monitoringконтролирование шумаnoise mufflerшумоглушительnoise pathтраектория распространения шумаnoise path lengthдлина траектории распространения шумаnoise preferential routeпредпочтительный по уровню шума маршрутnoise preferential runwayпредпочтительная по уровню шума ВППnoise pressure levelуровень звукового давленияnoise propagationраспространение шумаnoise propagation patternдиаграмма распространения шумаnoise reductionослабление шумаnoise reduction modificationмодификация со сниженным уровнем шумаnoise reduction requirementsтребования по снижению шумаnoise scaleшкала шумаnoise sertification testсертификационное испытаниеnoise spectrumспектр шумаnoise suppressionглушение шумаnoise suppression deviceглушитель шумаnoise suppressorглушитель шумаnoise testиспытание на шумnoise thrust correctionуменьшение шума за счет изменения тягиoriginate noiseсоздавать шумpeak perceived noise levelпиковый уровень воспринимаемого шумаpermissible noise levelдопустимый уровень шумаradio noiseрадиопомехиreduce noiseуменьшать шумreduce noise levelуменьшать уровень шумаreverse thrust noiseшум при включении реверса тягиsolar noiseшум солнечного излученияstandard noise levelнормативный уровень шумаsubsonic noise standardстандарт по шуму для дозвуковых самолетовtake-off noiseсертификация по шуму на взлетном режимеtakeoff noiseшум при взлетеtakeoff noise angleугол распространения шума при взлетеtakeoff noise testиспытание на шум при взлетеtest noiseшум при испытанииturbulence-induced noiseшум, вызываемый турбулентностьюunit noise durationпродолжительность единичного звукового сигнала
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