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1 Radio Standards Laboratory
Универсальный англо-русский словарь > Radio Standards Laboratory
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2 Radio Standards Laboratory
Engineering: RSLУниверсальный русско-английский словарь > Radio Standards Laboratory
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3 Radio Standards Laboratory
English-Russian electronics dictionary > Radio Standards Laboratory
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4 Radio Standards Laboratory
The New English-Russian Dictionary of Radio-electronics > Radio Standards Laboratory
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5 Laboratory
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6 Laboratory
в соч.- CAD Framework Laboratory
- Central Radio Propagation Laboratory
- National Software Testing Laboratory
- Naval Electronics Laboratory
- Radio Standards Laboratory
- Underwriters' Laboratory
- Wave Propagation LaboratoryThe New English-Russian Dictionary of Radio-electronics > Laboratory
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7 RSL
1) Компьютерная техника: Raise Specification Language, Rambus Signaling Level, Rambus Signaling Levels, Reactive Script Language, Requirements Specification Language, Robot Scripting Language2) Американизм: Rail Safety Law, Research Status Log3) Спорт: Reserve Static Line, Rugby Soccer League, Rugby Super League4) Военный термин: Ready Service Locker, Returned Soldiers League, reconnaissance and security line, remote Sprint launch, remote sensing laboratory6) Австралийский сленг: Services League of Australia7) Грубое выражение: Really Silly Look8) Телекоммуникации: Request and Status Links, Restricted Service Licence, Restricted Service License9) Сокращение: Range Safety Launch (UK Royal Air Force), Reshef Systems Ltd (Israel), Royal Society of Literature, транзит (Reserve static line), Remediation Stop Loss10) Вычислительная техника: requirement statement language11) Геофизика: ОУМ (относительный уровень моря, т.е. relative sea level)12) Расширение файла: PC Tools for Windows ReSource Library, Request-and-Status Link13) Должность: Registered Social Landlord14) Аэропорты: Russell, Kansas USA15) НАСА: Received Signal Level -
8 RSL
1) [radio signaling link] линия радиосигнализации2) [Radio Standards Laboratory] Лаборатория радиостандартов ( США)3) [Rambus signaling logic] логические схемы фирмы Rambus для памяти типа RDRAM, RSL-схема -
9 RSL
1) сокр. от radio signaling link линия радиосигнализации2) сокр. от Radio Standards Laboratory Лаборатория радиостандартов ( США)3) сокр. от Rambus signaling logic логические схемы фирмы Rambus для памяти типа RDRAM, RSL-схемаThe New English-Russian Dictionary of Radio-electronics > RSL
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10 Лаборатория радиостандартов Национального бюро стандартов
Engineering: Radio Standards LaboratoryУниверсальный русско-английский словарь > Лаборатория радиостандартов Национального бюро стандартов
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11 RSL
1. Radio Standards Laboratory - Лаборатория радиостандартов Национального бюро стандартов;2. registry size limit - ограничение размера реестра; ограничение на размер данных в реестре;3. request-and-status link - канал передачи запросов и данных состояния;4. requirement statement language - язык формулирования требований -
12 Лаборатория радиостандартов
( США) Radio Standards LaboratoryРусско-английский словарь по электронике > Лаборатория радиостандартов
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13 Лаборатория радиостандартов
( США) Radio Standards LaboratoryРусско-английский словарь по радиоэлектронике > Лаборатория радиостандартов
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14 точность
1) General subject: accuracy, accurateness, appropriateness (выражения), carefulness, correctness, definiteness, definition, delicacy (приборов), distinctness, efficiency (в работе), exactitude, exactness, fidelity, finesse, justness, minuteness, nicety, preciseness, precision, punctuality, scrupulosity, scrupulousness, sensibility (прибора), severity, strictness, stringency, trueness, truth, truthfulness, veracity, cleanliness (of strike), niceness3) Engineering: precision (прецизионность), standards laboratory accuracy, true4) Bookish: definitude6) Law: unambiguousness7) Accounting: fairness8) Linguistics: certainty9) Automobile industry: infallibility, truth (пригонки)10) Mining: sensitivity (прибора)11) Diplomatic term: letter14) Information technology: fidelities, fidelity (воспроизведения), validity (итеративного процесса)15) Astronautics: uncanny accuracy16) Drilling: precision precipitation, sensitivity17) Quality control: degree of accuracy, fineness (напр. настройки), trueness (пригонки)18) Makarov: rigour -
15 Marrison, Warren Alvin
[br]b. 21 May 1896 Inverary, Canadad. 27 March 1980 Palo Verdes Estates, California, USA[br]Canadian (naturalized American) electrical engineer, pioneer of the quartz clock.[br]Marrison received his high-school education at Kingston Collegiate Institute, Ontario, and in 1914 he entered Queen's University in Kingston. He graduated in Engineering Physics in 1920, his college career having been interrupted by war service in the Royal Flying Corps. During his service in the Flying Corps he worked on radio, and when he returned to Kingston he established his own transmitter. This interest in radio was later to influence his professional life.In 1921 he entered Harvard University, where he obtained an MA, and shortly afterwards he joined the Western Electric Company in New York to work on the recording of sound on film. In 1925 he transferred to Western Electric's Bell Laboratory, where he began what was to become his life's work: the development of frequency standards for radio transmission. In 1922 Cady had used the elastic vibration of a quartz crystal to control the frequency of a valve oscillator, but at that time there was no way of counting and displaying the number of vibrations as the frequency was too high. In 1927 Marrison succeeded in dividing the frequency electronically until it was low enough to drive a synchronous motor. Although his purpose was to determine the frequency accurately by counting the number of vibrations that occurred in a given time, he had incidentally produced the first quartz-crystal -ontrolled clock. The results were sufficiently encouraging for him to build an improved version the following year, specifically as a time and frequency standard.[br]Principal Honours and DistinctionsBritish Horological Institute Gold Medal 1947. Clockmakers' Company Tompion Medal 1955.Bibliography1928, with J.W.Horton, "Precision measurement of frequency", Proceedings of the Institute of Radio Engineers 16:137–54 (provides details of the original quartz clock, although it was not described as such).1930, "The crystal clock", Proceedings of the National Academy of Sciences 16:496–507 (describes the second clock).Further ReadingW.R.Topham, 1989, "Warren A.Marrison—pioneer of the quartz revolution", NAWCC Bulletin 31(2):126–34.J.D.Weaver, 1982, Electrical and Electronic Clocks and Watches, London (a technical assessment of his work on the quartz clock).DV -
16 Essen, Louis
SUBJECT AREA: Horology[br]b. 6 September 1908 Nottingham, England[br]English physicist who produced the first practical caesium atomic clock, which was later used to define the second.[br]Louis Essen joined the National Physical Laboratory (NPL) at Teddington in 1927 after graduating from London University. He spent his whole working life at the NPL and retired in 1972; his research there was recognized by the award of a DSc in 1948. At NPL he joined a team working on the development of frequency standards using quartz crystals and he designed a very successful quartz oscillator, which became known as the "Essen ring". He was also involved with radio frequency oscillators. His expertise in these fields was to play a crucial role in the development of the caesium clock. The idea of an atomic clock had been proposed by I.I.Rabbi in 1945, and an instrument was constructed shortly afterwards at the National Bureau of Standards in the USA. However, this device never realized the full potential of the concept, and after seeing it on a visit to the USA Essen was convinced that a more successful instrument could be built at Teddington. Assisted by J.V.L.Parry, he commenced work in the spring of 1953 and by June 1955 the clock was working reliably, with an accuracy that was equivalent to one second in three hundred years. This was significantly more accurate than the astronomical observations that were used at that time to determine the second: in 1967 the second was redefined in terms of the value for the frequency of vibration of caesium atoms that had been obtained with this clock.[br]Principal Honours and DistinctionsFRS 1960. Clockmakers' Company Tompion Gold Medal 1957. Physical Society C.V.Boys Prize 1957. USSR Academy of Science Popov Gold Medal 1959.Bibliography1957, with J.V.L.Parry, "The caesium resonator as a standard of frequency and time", Philosophical Transactions of the Royal Society (Series A) 25:45–69 (the first comprehensive description of the caesium clock).Further ReadingP.Forman, 1985, "Atomichron: the atomic clock from concept to commercial product", Proceedings of the IEEE 75:1,181–204 (an authoritative critical review of the development of the atomic clock).N.Cessons (ed.), 1992, The Making of the Modern World, London: Science Museum, pp.190–1 (contains a short account).See also: Marrison, Warren AlvinDV -
17 measurement
2) размер3) система мер•downhole measurement while drilling — скважинные исследования в процессе бурения;measurement on a voltmeter — измерение вольтметром;to transfer measurements from standards to instruments — передавать размеры единиц от эталонов рабочим средствам измерений-
absolute measurement
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ac measurements
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accurate measurement
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acting position measurement
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acting speed measurement
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airborne radar measurement
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ancillary measurement
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angle measurement
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angular position measurement
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antenna measurements
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antenna pattern measurement
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attenuation measurement
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aureole measurements
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automatic workpiece measurement
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balance measurement
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balloon-borne measurements
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balloon measurements
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bared measurement
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base measurement
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calibration grade measurement
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calibration measurement
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check measurement
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coarse visual measurement
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cold measurements
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comparative international measurement
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comparative measurement
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computer-aided measurement and control
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consecutive measurements
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conventional measurement
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dc measurements
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differential torque measurement
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dimensional measurements
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direct measurement
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discharge measurement
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distance measurement
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distortion-free measurement
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Doppler measurement
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dual wavelength satellite measurements
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dynamic measurements
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eclipse measurements
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electrical ac loss measurement
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electrical measurements
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emissivity measurement
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end-use measurements
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external measurement
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field measurement
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floating measurement
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flow measurement
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forest measurement
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four-terminal measurement
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free-field measurement
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frequency-domain measurements
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go-and-return measurement
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ground-based measurements
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hot measurements
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hydraulic measurement
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indirect measurement
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inflight measurement
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infrared measurements
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in-process measurement
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in-service measurement
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in-situ measurements
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instantaneous measurement
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integrated measurement
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internal measurement
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in-water measurements
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isotope-tracer measurement
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laboratory measurements
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land-based radar measurement
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lidar visibility measurement
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linear measurement
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mass-spectrometer measurements
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meaningful measurement
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microwave measurements
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multipath measurement
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multipoint measurements
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multispectral measurements
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near-surface measurements
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off-ground measurement
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omnidirectional measurement
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one-shot measurement
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on-line frequency response measurement
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out-of-service measurement
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pattern measurement
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pendulum measurement
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phase-conscious measurement
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photoelastic measurement
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photometric measurements
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physical measurements
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point-to-point measurements
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polarographic measurement
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position measurement
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potentiometric measurements
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precision measurement
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primary measurement
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pseudorange measurement
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pseudorange transit-time measurement
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pulse measurements
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qualitative measurement
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quantitative measurement
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radar distance measurement
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radio interferential measurements
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radio occultation measurements
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radioactivity measurement
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radiocarbon measurements
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radiometric measurements
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radiosonde measurements
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reference measurement
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reliable measurement
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remote measurement
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repeatable measurements
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reproducible measurements
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rocket ground measurements
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rocket measurements
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rocket probe measurements
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rough measurement
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routine measurement
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satellite-based measurements
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satellite measurements
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sea truth measurements
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sediment-load measurement
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shipboard measurements
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short-circuit measurement
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single-plane measurements
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sound measurement
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spaceborne measurement
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spaced sensor measurements
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spectrophotometric measurement
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spectrometric measurement
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static measurements
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steady-state measurements
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substitution measurement
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surface roughness measurement
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survey measurement
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time-domain measurements
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tower measurement
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traceable measurement
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transfer measurement
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two-plane measurements
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typographic measurement
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ultrasonic measurement
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unambiguous measurement
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unbalance measurement
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uniform measurements
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volume measurements
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wide-angle measurements
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work bench measurements
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zero offset measurement
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