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1 feature dictionary
English-Russian big polytechnic dictionary > feature dictionary
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2 feature dictionary
1) Механика: словарь признаков2) Робототехника: словарь признаков (для анализа изображений), таблица признаков (для анализа изображений) -
3 feature dictionary
Англо-русский словарь по машиностроению > feature dictionary
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4 feature dictionary
таблица признаков, словарь признаков
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5 feature
признак, особенность, характерная черта, свойство
– feature analyzer
– feature computation
– feature detection
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6 Feature Data Dictionary
[lang name="English"]Feature Data Dictionary, FDDThe English-Russian dictionary of geoinformatics > Feature Data Dictionary
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7 Graham, George
SUBJECT AREA: Horology[br]b. c.1674 Cumberland, Englandd. 16 November 1751 London, England[br]English watch-and clockmaker who invented the cylinder escapement for watches, the first successful dead-beat escapement for clocks and the mercury compensation pendulum.[br]Graham's father died soon after his birth, so he was raised by his brother. In 1688 he was apprenticed to the London clockmaker Henry Aske, and in 1695 he gained his freedom. He was employed as a journeyman by Tompion in 1696 and later married his niece. In 1711 he formed a partnership with Tompion and effectively ran the business in Tompion's declining years; he took over the business after Tompion died in 1713. In addition to his horological interests he also made scientific instruments, specializing in those for astronomical use. As a person, he was well respected and appears to have lived up to the epithet "Honest George Graham". He befriended John Harrison when he first went to London and lent him money to further his researches at a time when they might have conflicted with his own interests.The two common forms of escapement in use in Graham's time, the anchor escapement for clocks and the verge escapement for watches, shared the same weakness: they interfered severely with the free oscillation of the pendulum and the balance, and thus adversely affected the timekeeping. Tompion's two frictional rest escapements, the dead-beat for clocks and the horizontal for watches, had provided a partial solution by eliminating recoil (the momentary reversal of the motion of the timepiece), but they had not been successful in practice. Around 1720 Graham produced his own much improved version of the dead-beat escapement which became a standard feature of regulator clocks, at least in Britain, until its supremacy was challenged at the end of the nineteenth century by the superior accuracy of the Riefler clock. Another feature of the regulator clock owed to Graham was the mercury compensation pendulum, which he invented in 1722 and published four years later. The bob of this pendulum contained mercury, the surface of which rose or fell with changes in temperature, compensating for the concomitant variation in the length of the pendulum rod. Graham devised his mercury pendulum after he had failed to achieve compensation by means of the difference in expansion between various metals. He then turned his attention to improving Tompion's horizontal escapement, and by 1725 the cylinder escapement existed in what was virtually its final form. From the following year he fitted this escapement to all his watches, and it was also used extensively by London makers for their precision watches. It proved to be somewhat lacking in durability, but this problem was overcome later in the century by using a ruby cylinder, notably by Abraham Louis Breguet. It was revived, in a cheaper form, by the Swiss and the French in the nineteenth century and was produced in vast quantities.[br]Principal Honours and DistinctionsFRS 1720. Master of the Clockmakers' Company 1722.BibliographyGraham contributed many papers to the Philosophical Transactions of the Royal Society, in particular "A contrivance to avoid the irregularities in a clock's motion occasion'd by the action of heat and cold upon the rod of the pendulum" (1726) 34:40–4.Further ReadingBritten's Watch \& Clock Maker's Handbook Dictionary and Guide, 1978, rev. Richard Good, 16th edn, London, pp. 81, 84, 232 (for a technical description of the dead-beat and cylinder escapements and the mercury compensation pendulum).A.J.Turner, 1972, "The introduction of the dead-beat escapement: a new document", Antiquarian Horology 8:71.E.A.Battison, 1972, biography, Biographical Dictionary of Science, ed. C.C.Gillespie, Vol. V, New York, 490–2 (contains a résumé of Graham's non-horological activities).DV -
8 design
1. noun1) (preliminary sketch) Entwurf, der2) (pattern) Muster, das5) (general idea, construction from parts) Konstruktion, die6) in pl.have designs on somebody/something — es auf jemanden/etwas abgesehen haben
7) (purpose) Absicht, die8) (end in view) Ziel, das2. transitive verb1) (draw plan of, sketch) entwerfen; konstruieren, entwerfen [Maschine, Fahrzeug, Flugzeug]2)be designed to do something — [Maschine, Werkzeug, Gerät:] etwas tun sollen
3) (set apart) vorsehenbe designed for somebody/something — für jemanden/etwas gedacht od. vorgesehen sein
* * *1. verb(to invent and prepare a plan of (something) before it is built or made: A famous architect designed this building.) entwerfen2. noun1) (a sketch or plan produced before something is made: a design for a dress.) der Entwurf2) (style; the way in which something has been made or put together: It is very modern in design; I don't like the design of that building.) die Gestaltung, die Bauart3) (a pattern etc: The curtains have a flower design on them.) das Muster4) (a plan formed in the mind; (an) intention: Our holidays coincided by design and not by accident.) die Absicht•- academic.ru/19873/designer">designer- designing* * *de·sign[dɪˈzaɪn]I. vt1. (plan)▪ to \design sth etw entwerfento \design books Bücher gestaltento \design cars Autos konstruierento \design a dress ein Kleid entwerfen2. (intend)▪ to be \designed for sb für jdn konzipiert seinthese measures are \designed to reduce pollution diese Maßnahmen sollen die Luftverschmutzung verringernII. vi entwerfen, gestaltenIII. nto study \design Design studieren3. (arrangement of form, colour) Design nt (of + gen); of building Bauart f; of machine Konstruktion fto do sth by \design etw mit Absicht tunto have \designs on a championship es auf einen Titel abgesehen habenIV. adj attr, inv Konstruktions-\design fault Konstruktionsfehler m\design feature Konstruktionsmerkmal nt* * *[dI'zaɪn]1. n1) (= planning, shaping etc of building, book, picture etc) Entwurf m; (of dress) Design nt, Entwurf m; (of car, machine, plane etc) Konstruktion fit's still at the design stage — es befindet sich noch in der Konstruktion or im Konstruktionsstadium
it was a good/faulty design — es war gut/schlecht konstruiert
2) no pl (as subject = art of designing) Design nt3) (= pattern on pottery, material) Muster nt4) (= intention) Plan m, Absicht fby design ( rather than accident) — absichtlich (und nicht zufällig)
to have designs on sb/sth — mit jdm/etw etwas im Sinn haben, es auf jdn/etw abgesehen haben
he has designs on her — er hat etwas mit ihr vor
2. vt1) (= plan, draw) entwerfen; machine konstruierena well designed machine —
car seats designed for maximum safety — Autositze, die für maximale Sicherheit konstruiert sind
2)(= intend)
to be designed for sb/sth —the dictionary is designed for beginners a peace plan designed to end the civil war — das Wörterbuch ist für Anfänger bestimmt or konzipiert ein Friedensplan, der den Bürgerkrieg beenden soll
the legislation is designed as a consumer protection measure — die Gesetzgebung soll dem Verbraucherschutz dienen
3. viplanen, Pläne or Entwürfe machen4. adj attrDesign-* * *design [dıˈzaın]A v/t1. entwerfen, aufzeichnen, skizzieren, TECH konstruieren:design a dress ein Kleid entwerfen2. gestalten, ausführen, anlegen:3. fig entwerfen, ausdenken, ersinnen4. im Sinne haben, vorhaben, planen ( alle:doing, to do zu tun)5. bestimmen, vorsehen ( beide:for für jemanden oder etwas;as als):design sb to be a priest jemanden dazu ausersehen, Priester zu werdenfor für)C s1. Design n, Entwurf m, Zeichnung f, Plan m, Skizze f3. TECHa) Baumuster n, Konstruktionszeichnung fb) Bauart f, Bau(weise) m(f), Konstruktion f, Ausführung f:4. Design n, (dekoratives) Muster6. Plan m, Anlage f, Anordnung f7. Plan m, Vorhaben n, Absicht f:by design mit Absicht, absichtlich;with the design of doing mit der Absicht oder dem Vorsatz zu tun8. Ziel n, (End)Zweck m9. Anschlag m ([up]on sb’s life auf jemandes Leben), böse Absicht:have designs (up)on ( oder against) etwas (Böses) im Schilde führen gegen, es abgesehen haben auf (akk), a. hum einen Anschlag vorhaben auf (akk)10. Zweckmäßigkeit f:* * *1. noun1) (preliminary sketch) Entwurf, der2) (pattern) Muster, das5) (general idea, construction from parts) Konstruktion, die6) in pl.have designs on somebody/something — es auf jemanden/etwas abgesehen haben
7) (purpose) Absicht, dieby design — mit Absicht; absichtlich
8) (end in view) Ziel, das2. transitive verb1) (draw plan of, sketch) entwerfen; konstruieren, entwerfen [Maschine, Fahrzeug, Flugzeug]2)be designed to do something — [Maschine, Werkzeug, Gerät:] etwas tun sollen
3) (set apart) vorsehenbe designed for somebody/something — für jemanden/etwas gedacht od. vorgesehen sein
* * *n.Bauplan -¨e m.Entwurf -¨e m.Gestaltung f.Konstruktion f.Planung -en f. v.entwerfen v.konstruieren v.konzipieren (Technik) v.planen v. -
9 in
in [ɪn]━━━━━━━━━━━━━━━━━1. preposition2. adverb3. adjective4. plural noun5. compounds━━━━━━━━━━━━━━━━━1. preposition━━━━━━━━━━━━━━━━━► When in is an element in a phrasal verb, eg ask in, fill in, look up the verb. When it is part of a set combination, eg in danger, weak in, look up the other word.━━━━━━━━━━━━━━━━━► in it/them ( = inside it, inside them) dedans• our bags were stolen, and our passports were in them on nous a volé nos sacs et nos passeports étaient dedansb. (people, animals, plants) chez► in + feminine countries, regions, islands en━━━━━━━━━━━━━━━━━► Feminine countries usually end in -e.━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━► en is also used with masculine countries beginning with a vowel or silent h.━━━━━━━━━━━━━━━━━► in + masculine country au• in Japan/Kuwait au Japon/Koweït━━━━━━━━━━━━━━━━━► Note also the following:━━━━━━━━━━━━━━━━━► in + plural country/group of islands aux━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━e. (month, year, season) en• in summer/autumn/winter en été/automne/hiver━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━f. ( = wearing) eng. (language, medium, material) en• in marble/velvet en marbre/veloursj. ( = while) en• in trying to save her he fell into the water himself en essayant de la sauver, il est tombé à l'eau2. adverba. ( = inside) à l'intérieur• she opened the door and they all rushed in elle a ouvert la porte et ils se sont tous précipités à l'intérieur━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━b. (at home, work)━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━━• you're never in! tu n'es jamais chez toi !• is Paul in? est-ce que Paul est là ?━━━━━━━━━━━━━━━━━► to be in may require a more specific translation.━━━━━━━━━━━━━━━━━► in between + noun/pronoun entre• he positioned himself in between the two weakest players il s'est placé entre les deux joueurs les plus faibles• in between adventures, he finds time for... entre deux aventures, il trouve le temps de...► to be in for sth ( = be threatened with)• you don't know what you're in for! (inf) tu ne sais pas ce qui t'attend !• he's in for it! (inf) il va en prendre pour son grade ! (inf)► to be in on sth (inf) ( = know about)the new treatment is preferable in that... le nouveau traitement est préférable car...► to be well in with sb (inf) être dans les petits papiers de qn (inf)3. adjective• it's the in thing to... c'est très à la mode de...4. plural noun5. compounds• to have in-service training faire un stage d'initiation ► in-store adjective [detective] employé par le magasin* * *Note: in is often used after verbs in English ( join in, tuck in, result in, write in etc). For translations, consult the appropriate verb entry (join, tuck, result, write etc)If you have doubts about how to translate a phrase or expression beginning with in ( in a huff, in business, in trouble etc) you should consult the appropriate noun entry (huff, business, trouble etc)This dictionary contains usage notes on such topics as age, countries, dates, islands, months, towns and cities etc. Many of these use the preposition in. For the index to these notesFor examples of the above and particular functions and uses of in, see the entry below[ɪn] 1.in prison/town — en prison/ville
in the film/newspaper — dans le film/journal
I'm in here! — je suis là!; bath, bed
2) (inside, within) dansthere's something in it — il y a quelque chose dedans or à l'intérieur
3) ( expressing a subject or field) dansin insurance — dans les assurances; course, expert
4) (included, involved)to be in on the secret — (colloq) être dans le secret
I wasn't in on it — (colloq) je n'étais pas dans le coup (colloq)
5) ( in expressions of time)6) ( within the space of) en7) ( expressing the future) dans8) ( for) depuisit hasn't rained in weeks — il n'a pas plu depuis des semaines, ça fait des semaines qu'il n'a pas plu
9) (during, because of) dans10) ( with reflexive pronouns)how do you feel in yourself? — est-ce que tu as le moral?; itself
11) (present in, inherent in)12) (expressing colour, composition) en13) ( dressed in) en14) ( expressing manner or medium)‘no,’ he said in a whisper — ‘non,’ a-t-il chuchoté
in pencil/in ink — au crayon/à l'encre
15) ( as regards)rich/poor in minerals — riche/pauvre en minéraux
16) (by)17) ( in superlatives) de18) ( in measurements)19) ( in ratios)a gradient of 1 in 4 — une pente de 25%
20) ( in approximate amounts)in their hundreds ou thousands — par centaines or milliers
21) ( expressing age)2.in old age — avec l'âge, en vieillissant
in and out prepositional phrase3.to weave in and out of — se faufiler entre [traffic, tables]
in that conjunctional phrase dans la mesure où4.1) ( indoors)to ask ou invite somebody in — faire entrer quelqu'un
2) (at home, at work)to be in by midnight — être rentré avant minuit; keep, stay
3) (in prison, in hospital)4) ( arrived)5) Sport6) ( gathered)7) ( in supply)8) ( submitted)5.the homework has to be in tomorrow — le devoir doit être rendu demain; get, power, vote
(colloq) adjectiveto be in —
••to have an in with somebody — US avoir ses entrées chez quelqu'un
to have it in for somebody — (colloq) avoir quelqu'un dans le collimateur (colloq)
you're in for it — (colloq) tu vas avoir des ennuis
he's in for a shock/surprise — il va avoir un choc/être surpris
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10 Huygens, Christiaan
SUBJECT AREA: Horology[br]b. 14 April 1629 The Hague, the Netherlandsd. 8 June 1695 The Hague, the Netherlands[br]Dutch scientist who was responsible for two of the greatest advances in horology: the successful application of both the pendulum to the clock and the balance spring to the watch.[br]Huygens was born into a cultured and privileged class. His father, Constantijn, was a poet and statesman who had wide interests. Constantijn exerted a strong influence on his son, who was educated at home until he reached the age of 16. Christiaan studied law and mathematics at Ley den University from 1645 to 1647, and continued his studies at the Collegium Arausiacum in Breda until 1649. He then lived at The Hague, where he had the means to devote his time entirely to study. In 1666 he became a Member of the Académie des Sciences in Paris and settled there until his return to The Hague in 1681. He also had a close relationship with the Royal Society and visited London on three occasions, meeting Newton on his last visit in 1689. Huygens had a wide range of interests and made significant contributions in mathematics, astronomy, optics and mechanics. He also made technical advances in optical instruments and horology.Despite the efforts of Burgi there had been no significant improvement in the performance of ordinary clocks and watches from their inception to Huygens's time, as they were controlled by foliots or balances which had no natural period of oscillation. The pendulum appeared to offer a means of improvement as it had a natural period of oscillation that was almost independent of amplitude. Galileo Galilei had already pioneered the use of a freely suspended pendulum for timing events, but it was by no means obvious how it could be kept swinging and used to control a clock. Towards the end of his life Galileo described such a. mechanism to his son Vincenzio, who constructed a model after his father's death, although it was not completed when he himself died in 1642. This model appears to have been copied in Italy, but it had little influence on horology, partly because of the circumstances in which it was produced and possibly also because it differed radically from clocks of that period. The crucial event occurred on Christmas Day 1656 when Huygens, quite independently, succeeded in adapting an existing spring-driven table clock so that it was not only controlled by a pendulum but also kept it swinging. In the following year he was granted a privilege or patent for this clock, and several were made by the clockmaker Salomon Coster of The Hague. The use of the pendulum produced a dramatic improvement in timekeeping, reducing the daily error from minutes to seconds, but Huygens was aware that the pendulum was not truly isochronous. This error was magnified by the use of the existing verge escapement, which made the pendulum swing through a large arc. He overcame this defect very elegantly by fitting cheeks at the pendulum suspension point, progressively reducing the effective length of the pendulum as the amplitude increased. Initially the cheeks were shaped empirically, but he was later able to show that they should have a cycloidal shape. The cheeks were not adopted universally because they introduced other defects, and the problem was eventually solved more prosaically by way of new escapements which reduced the swing of the pendulum. Huygens's clocks had another innovatory feature: maintaining power, which kept the clock going while it was being wound.Pendulums could not be used for portable timepieces, which continued to use balances despite their deficiencies. Robert Hooke was probably the first to apply a spring to the balance, but his efforts were not successful. From his work on the pendulum Huygens was well aware of the conditions necessary for isochronism in a vibrating system, and in January 1675, with a flash of inspiration, he realized that this could be achieved by controlling the oscillations of the balance with a spiral spring, an arrangement that is still used in mechanical watches. The first model was made for Huygens in Paris by the clockmaker Isaac Thuret, who attempted to appropriate the invention and patent it himself. Huygens had for many years been trying unsuccessfully to adapt the pendulum clock for use at sea (in order to determine longitude), and he hoped that a balance-spring timekeeper might be better suited for this purpose. However, he was disillusioned as its timekeeping proved to be much more susceptible to changes in temperature than that of the pendulum clock.[br]Principal Honours and DistinctionsFRS 1663. Member of the Académie Royale des Sciences 1666.BibliographyFor his complete works, see Oeuvres complètes de Christian Huygens, 1888–1950, 22 vols, The Hague.1658, Horologium, The Hague; repub., 1970, trans. E.L.Edwardes, AntiquarianHorology 7:35–55 (describes the pendulum clock).1673, Horologium Oscillatorium, Paris; repub., 1986, The Pendulum Clock or Demonstrations Concerning the Motion ofPendula as Applied to Clocks, trans.R.J.Blackwell, Ames.The balance spring watch was first described in Journal des Sçavans 25 February 1675, and translated in Philosophical Transactions of the Royal Society (1675) 4:272–3.Further ReadingH.J.M.Bos, 1972, Dictionary of Scientific Biography, ed. C.C.Gillispie, Vol. 6, New York, pp. 597–613 (for a fuller account of his life and scientific work, but note the incorrect date of his death).R.Plomp, 1979, Spring-Driven Dutch Pendulum Clocks, 1657–1710, Schiedam (describes Huygens's application of the pendulum to the clock).S.A.Bedini, 1991, The Pulse of Time, Florence (describes Galileo's contribution of the pendulum to the clock).J.H.Leopold, 1982, "L"Invention par Christiaan Huygens du ressort spiral réglant pour les montres', Huygens et la France, Paris, pp. 154–7 (describes the application of the balance spring to the watch).A.R.Hall, 1978, "Horology and criticism", Studia Copernica 16:261–81 (discusses Hooke's contribution).DV -
11 FDD
[lang name="English"]Feature Data Dictionary, FDD -
12 Windows Sidebar
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