Computer Science And Engineering

computer science and engineering research study

Техника: научно-технические исследования с использованием ЭВМ

computer science

= CS III

досл. компьютерные науки, теория вычислительных машин и систем; вычислительная техника (как область знаний)

общее название для совокупности дисциплин, связанных с конструированием компьютеров и их использованием в обработке информации. Объединяет теоретические и практические аспекты многих наук, таких как электроника, программирование, математика, искусственный интеллект, человеко-машинное взаимодействие, конструирование ЭВМ и др. Имеет много направлений, некоторые из которых ставят во главу угла конкретные результаты (пример - компьютерная графика, computer graphics), некоторые - свойства вычислительных задач (пример - теория сложности вычислений, complexity theory), а некоторые фокусируются на проблемах реализации вычислений. Так, теория языков программирования (programming language theory) изучает подходы к описанию вычислений, а программирование для компьютеров (computer programming) предусматривает применение конкретных языков для решения конкретных задач. Подмножеством компьютерных наук являются теоретические компьютерные науки (theoretical computer sciences). В целом компьютерные науки относятся к естественным наукам (physical sciences).

The great Edsger Dijkstra has eloquently explained that Computer Science is not an experimental science and doesn't depend on electronic computers. — Знаменитый Edsger Dijkstra популярно объяснил, что Computer Science - это не экспериментальная наука, она не зависит от электронных компьютеров см. тж. artificial intelligence, computer engineering, information theory, software engineering

computer

[këm'pju:të:] n 1. makinë llogaritëse; kompjuter, ordinator. 2. llogaritës, njehsues (person)

- Kompjuteri është pajisje elektronike shumë e ndërlikuar që shërben për regjistrimin, transmetimin dhe përpunimin e informatave që mund të manifestohen si llogaritje, udhëheqje të proceseve, përpunim i tekstit, të dhënave të ndryshme si dhe për përdorime më të përgjithëshme. Kompjuteri, marrë në kuptimin e gjerë, përbëhet prej dy komponentëve të quajtura: harduer ( hardware - pjesë fizike e tij) dhe softuer ( software - programet dhe udhëzimet për punë). Me fjalë tjera, softueri është pjesa programore e hardueri pjesa mekanika e kompjuterit.

● Hardueri përmban komponentet fizike të kompjuterit siç janë: tastiera ( Keyboard), monitori, shtypësi ( Printer), miu ( Mouse), disku i ngurtë ( Hard Disk), njësia e diskut, disketa ( Floppy Disk), njësia e disketës, CD-ROM-i ( CD ROM), njësia e CD-ROM-it, vizatuesi, modemi, lexuesi ( Scanner), kamera digjitale etj.

● Softueri përmbanë programet dhe të dhënat të cilat e udhëzojnë kompjuterin në punën e tij, literatura, dokumentacioni dhe udhëzimet në lidhje me kompjuterin. Hardueri mund të krahasohet me gramafonin e disqet, ndërsa softueri me muzikën e inçizuar në disqe.)

Zhvillimi historik i kompjuterit

- Njeriu gjithmon ka tentuar të zgjidhë edhe problemet monotone, të vështira dhe të papërshtatshme. Gjatë zgjidhjeve të këtyre problemeve ka hasur në punë të vështira fizike, prandaj, çdo here ka tentuar që të liroj veten nga këta punë duke menduar makina të lloj-llojshme. Një makinë e këtyllë për lehtësimin e llogaritjeve aritmetike është makina e quajtur Abacus për të cilën dihet se është në përdorim prej para 5000 vjetëve. Kjo makinë i ngjanë numratores së sotme të cilën e përdorin nxënësit në klasë të pare dhe njihet si zanafilla e kompjuterëve të sotëm. Prej kohës së zbulimit të Abacusit e deri në shekullin 17 historia e zhvillimit të kompjuterëve nuk posedon të dhëna për ndonjë lëvizje në rrugën e zhvillimit të kompjuterëve.

- Gjatë shekullit 17, respektivisht në vitin 1614 matematikani skocez J. Napier zbulon logaritmet dhe në vtin 1622 W. Oughtred ndërton kompjuterin (makinën) logaritmik cirkular për llogaritjen e logaritmeve.

- Në vitin 1649 Blaise Pascal ndërton makinën mekanike për kryerjen e operacioneve aritmetike. Makina e Pascalit është e ndërtuar prej disa dhëmbëzorëve të cilët në lëvizje vendohen mekanikisht (me dorë). Ideja e konstruktimit të një makine-kalkulatori (kalkulator quhet makina e cila kryen operacionet aritmetike) ka qenë lehtësimi i punës së të atit të tij i cili ka qenë puntor i tatimeve (mbledhës i tatimeve) dhe ka patur nevojë për shumë llogaritje.

- Në vitin 1672 G.W. Laibniz në Pariz projekton kalkulatorin mekanik më të përsosur nga dy të parët i cili me sukse do t'i kryej katër operacionet elementare aritmetike. Kufizimi në realizimin konkret të këtij kalkulatori ka qenë teknologjia e dobët e asaj kohe prandaj ky projekt ka ngelur i pa realizuar. Është interesant të përmendet se Laibnitz ka qenë pioneri i parë në hulumtimin e sistemit binar i cili përdoret në ndërtimin e kompjuterëve të sotëm. Gjatë 150

viteve në vazhdim të gjithë tentimet për zhvillimin e kalkulatorëve kanë qenë të inspiruar nga kalkulatori i Laibnitzit.

- Në vitin 1822 Anglezi Charles Babbage paraqet projekt të një kalkulatori krejtësisht të ndryshëm i dedikuar për llogaritjen e tabelave për funksione të caktuara. Projekti i këtillë do të finansoheshe nga qeveria Angleze e asaj kohe dhe do të përdoreshe për llogaritjen e tabelave për navigacionin detar. Për shkak të kompleksitetit dhe kushteve financiare e teknologjike ky projekt nuk u krye, në vitin 1842 definitivisht projekti u ndërpre. Makinën e këtillë Babbage e quajti makina diferenciale. Projektin e makinës diferenciale me sukse e realizuan Suedezët në vitin 1854 nën udhëheqen e P. G. Scheutza (duke i zbatuar sqarimet dhe vërejtjet e dhëna nga Babbage në 7000 faqe të shkruara) dhe makina e fituar nën pogon mekanik me sukse i llogariti tabelat (për 80 orë ka logarit 10000 logaritme).

- Në vitin 1835 Babbage erdhi në idenë e konstruktimit të një makine programabile me funksionet që i kanë kompjuterët e tanishëm (me njësinë aritmetike-logjike, memorjen, etj.). Makinën e këtillë e quajti makina analitike. Për shkak të krizave finaciare dhe të vështirësive teknologjike kjo makinë ngeli vetëm në fazën e projektimit në letër por dha një inpuls të fuqishëm në zhvillimin e kompjuterëve të mëtutjeshëm.

- Koha moderne fillon me përdorimin e energjisë elektrike në makinat për llogaritje. Në vitin 1884 emigranti gjerman në Amerikë Herman Holerith patenton makinën e pare elektrike e cila do të mund të rendit (sortoj) kartelat e shpuara me të dhënat për banorët e Amerikës. Makina e Holerithit në lëvizje vendoheshte me ndihmën e baterive. Qëllimi i kësaj makine ishte renditja e kartelave me të dhënat e banorëve të Amerikës të regjistruar në vitin 1890. Holerithi ishte inzhenier dhe punonte në institutin e statistikës, problem në atë kohë ishte përpunimi statistikor i të dhënave. Kështu regjistrimi statistikor në teren zgjatë disa muaj ndërsa përpunimi zgjate disa vjetë por bile edhe dhjetra vjetë dhe kur të dhënat përpunoheshin rezultatet e fituara ishin të vjetëruara (sepse regjistrimi statistikor zakonisht bëhet çdo 10 vjetë). Qeveria e asaj kohe shpall konkurs për përpunimin automatik të të dhënave me qëllim të përshpejtimit të përpunimit. Holerithi pasi punonte në institutin ku bëheshte përpunimi i të dhënave të këtylla, e njihte problemin dhe për këtë qëllim patentoi makinën e tij. Kështu me ndihmën e 56 makinave të Holerithit u aritë që të dhënat statistikore për popullsinë e Amerikës të përpunohen vetëm për gjashtë javë (në atë regjistrim Amerika doli me 62 622 250 banorë).

- Pas këtij suksesi Holerithi themeloi kompaninë për prodhimin dhe huazimin e këtyre makinave (makina quheshe Tabulating Machine) me emrin Tabulating Machine Company e cila në vitin 1924 u bashkua me disa kompani të tjera dhe ndëroi emrin në IBM (International Business Machines), e njohur edhe sot.

- Në vitin 1936 gjermani K. Zuse në Berlin arrinë të konstruktoj kalkulatorin programabil i cili do të mund të zgjidhë barazimet lineare. Zuse ariti të konstruktoj makinën e pare e cila shfrytëzonte sistemin binar, këtë makinë e konstriktoi në katër modele të njëpasnjëshëm Z1, Z2, Z3 dhe Z4, por modeli Z4 ngeli vetëm si ide interesante.

- Me fillimin e luftës së dytë botërore interesimi për makina llogaritëse (kompjuterë) u zvoglua dhe gjithnjë mendohej në përmirësimin e armatimit. Mirëpo për prodhimin e armëve të reja artilerike nevoitej një hulumtin më i thellë dhe llogaritje të vështira, për hulumtime dhe llogaritje të thella nevoiteshe kohë e cila mungonte. Në vitin 1942 Fakulteti Moore School of Electrical Engineering nga Universiteti i Pensilvanisë bashkë me institutin Ballistic Research Laboratory nga armata Amerikane filloi hulumtimet për një makinë-kompjuter i cili do t'u lehtësonte punën puntorëve në industrinë ushtarake për prodhimin e armatimit artilerik respektivisht do të llogaritë tabelat balistike. Projekti deri në 1943 ishte në fshehtësi. Në vitin 1943 filloi ndërtimin nën udhëheqjen e udhëheqësve të projektit John W. Mauchly dhe J. Presper Eckert. Kompjuteri i menduar u quajt ENIAC (Electronic Numerical Integrator and Computer) dhe në përdorim u lëshua më 15 Shkurt 1946. Kompjuteri ENIAC meret si kompjuteri i parë i formës dhe me funksionet e kompjuterëve të sotëm. Me konstruktimin e ENIAC-ut fillon edhe gjenerata e parë e zhvillimit të kompjuterëve. Vlenë të përmendet se idenë për ndërtimin e kompjuterit të këtillë (në vitin 1930) e dha matematicienti John V. Atanasoff i cili në atë kohë punonte me kompjuterët analog për zgjidhjen e barazimeve lineare në lëminë e kërkimeve operacionale si dhe matematikani i shekullit 20 John von Neuman i cili ariti që teoretikisht ta përpunojë idenë dhe të bëjë sistematizimin e idesë.

- Kompjuteri ENIAC përmbante afër 18000 llëmba elektronike, peshonte afër 30 tonë, zënte sipërfaqe prej 150 m2.

- Kompjuterët e prodhuar prej vitit 1946 deri 1953 (kompjuterët EDVAC, ILLIAC, MANIAC etj.), njihen si gjenerata e parë dhe karakterizohen me llëmbat elektronike.

- Me zbulimin e tranzistorit fillon gjenerata e dytë, kjo gjenerat zgjat prej vitit 1953 deri 1964. Tek kompjuterët e gjeneratës së dytë fillon zbatimi i gjuhëve të larta programore (Fortran-i paraqitet në vitin 1957, Algol në vitin 1961, etj.)

- Gjenerata e tretë e kompjuterëve fillon në vitin 1964 dhe vazhdon deri në vitin 1971, kompjuterat e konstruktuar në këtë periudhë karakterisohen me qarqet e integruara-çipat.

- Gjenerata e katër e kompjuterëve fillon në vitin 1971, kompjuterët e kësaj gjenerate karakterizohen me qarqet integrale të dendësisë së madhe LSI dhe VLSI (V-very). Gjenerata e katër e kompjuterëve ende është e hapur, PC kompjuterët e sotëm i takojnë gjeneratës së katër.

- Për dallim nga katër gjeneratat e para kompjuterët e të cilave bëjnë përpunimin e të dhënave, kompjuterët e gjeneratës pestë e cila fillon në vitin 1981 bëjnë përpunimin e njohurive. Në këtë gjeneratë bien makinat e quajtura Robot.

- Kompjuterët e gjeneratës së gjashtë (njëherit gjenerata e fundit e kompjuterëve) e cila fillon në vitin 1986 merren me përpunimin e inteligjencës. Kompjuterët e kësaj gjenerate quhen Neurocomputers (Kompjuterët neural, Kompjuterët biologjik) të cilët në punën e tyre tentojnë të imitojnë trurin dhe sistemin nervorë të njeriut. Këta kompjuterë në fillim të jetës mësojnë (me metoda speciale eksperimentale) dhe pastaj janë në gjendje të veprojnë pa prezencën dhe ndikimin e njeriut.

PJESA PROGRAMORE E KOMPJUTERIT-SOFTUERI

Sistemi operativ

- Programet, asemblerët dhe kompajlerët ekzekutohen në kompjuter, në praninë e një mjedisi të caktuar programues. Këtë mjedis programues e përcakton sistemi operativ. Sistemi operativ është një grumbull i programeve i cili manipulon me resurset dhe shërbimet e sistemit kompjuterik (harduerit), siç janë memoria qëndrore, njësitë hyrëse-dalëse, etj. Pra sistemi operativ e komandon (manipulon) me hardverin e sistemit kompjuterik. Programi, në mënyrë implicite apo eksplicite, vetëm përmes direktivave të sistemit operativ mund t'i shfrytëzojë resurset dhe shërbimet e sistemit kompjuterik. Pra programi e urdhëron apo kërkon nga sistemi operativ shfrytëzimin e resurseve kompjuterike.

- Nga kjo që u tha më sipër shihet se programet të cilat i shkruajmë (programeve aplikative) në gjuhët larta programuese, nuk e komandojnë harduerin, por i dërgojnë komanda sistemit operativ, i cili më pastaj manipulon me harduer për të arritur te rezultatet e dëshiruara. Kjo do të thotë se sistemi operativ është një lloj ndërmjetësuesi (interfejs) në mes të programeve aplikative dhe harduerit kompjuterik.

- Roli kryesor i sistemit operativ është të shërbej si ndërmjetësues në mes të shfrytëzuesit dhe hardverit kompjuterik, dhe në mes të programeve aplikative dhe hardverit kompjuterik.

- Ekzistojnë sisteme të ndryshme operative, mirëpo më të njohurat në PC janë MS-DOS dhe MS WINDOWS 95.

- MS-DOS ( MicroSoft Disk Operating System), që do të thotë sistemi operativ i diskut i majkrosoftit. Nga këndi i vështrimit të programerit MS-DOS është sistem operativ hierarkial, që përmbanë tri nivele (shtresa), të cilat e ndajnë shfrytëzuesin dhe programet aplikative prej hardverit kompjuterik. Këto shtresa janë BIOS ( Basic Input-Output System që do të thotë sistemi themelor për hyrje-dalje), kerneli i DOS-it, dhe interpretuesi i komandave. Shtresa më e ulët është BIOS-i. BIOS-i kryesisht manipulon me këto njësi hardverike:

● Konzolla (tastatiera dhe ekrani);

● Printed i përgjithshëm;

● Portet serike;

● Orën e taktit të kompjuterit;

● Diskun startues.

- Kerneli i DOS-it, përveq tjerash, ofron shërbimet për:

● Manipulimin e folderëve dhe fajllave;

● Manipulimin e memories qëndrore;

● Kohën dhe datën;

● Menagjmentin e programeve aplikative.

- Interpretuesi i komandave ka për detyrë që të ekzekutojë komandat të cilat ia jep shfrytëzuesi, duke kyçur edhe leximin dhe ekzekutimin e programeve aplikative.

- Edhe pse Windows është paraqitur në mes të viteve 1980, nuk pati ndonjë sukses të madh në treg. Mirëpo me lansimin e verzionit Windows 3.0 më 1990, e sidomos me Windows 3.1 një vit më vonë e gjithë kjo ndryshoi, dhe tani Windows është produkt softverik i dyti më i shituri i të gjitha kohrave, pas MS DOS-it (e sidomos me lajmërimin e Windows 95/98).

Windows punon se bashku me DOS-in por sillet si sistem operativ në vehte. Duke i shtuar nivel softverik mbi DOS, Windows-i i shton zgjerime grafike DOS-it.

- Popullariteti i Windows-it i ka shtyer shumë programerë dhe shtëpi softverike botuese që të zhvillojnë aplikacione të cilat janë vetëm për Windows. Të gjitha këto aplikacione kanë një pamje të përgjithshme të ngjashme. Nëse dini të drejtoni një strukturë të menysë në një aplikacion të Windows-it atëherë dini të bëni të njejtën gjë edhe në aplikacionet tjera.

- Përparësitë kryesore të Windows-it janë:

● Platformë multitasking, në të cilën shumë aplikacione mund të ekzekutohen në të njejtën kohë.

● Pamje gjenerale e ngjashme e të gjitha aplikacioneve të shkruara për Windows.

● Mjedis grafik, i cili manipulohet me ndihmën e miut (apo tastierës).

● Mundësia e shkëmbimit të informatave - duke përfshirë fotografi, dokumente, etj. ndërmjet aplikacioneve të ndryshme.

● Një numër të veglave ndihmëse, duke përfshirë editor të tekstit, program per vizatim, kalkulator, program komunikues për modem, etj.

• computer dating [këm'pju:të:deiting] n. takim (dy personash) me ndihmën e sistemit informatik telefonik

• computerese [këmpju:të'ri:z] n. gj.fol. zhargon i / gjuhë e informatikës

● computer game [këm'pju:të:geim] n. lojë elektronike, lojë me kompjuter

● computer aided design, computer assisted design [këm'pju:të: eidid di'zain/ ë'sistid] n. vizatim teknik me kompjuter

● computerist [këm'pju:tërist] n. amer. informatikan

● computerization [këmpju:tërai'zeishën] n 1. trajtim elektronik, kompjuterizim; automatizim. 2. hedhje (të dhënash etj) në kompjuter

● computerize [këm'pju:tëraiz] vt 1. informatizoj, kompjuterizoj; përpunoj në kompjuter. 2. hedh në kompjuter

● computer language [këm'pju:'længwixh] n. gjuhë programimi

● computer literate [këm'pju:'litërit] adj. që ka njohuri në informatikë, që njeh kompjuterin

● computer operator [këm'pju:'opëreitë:(r)] n. kompjuterist, person që punon në/me kompjuter

● computer programmer [këm'pju:'prëugræmë:(r)] n. kmp. programist

● computer science [këm'pju:'saiëns]n. informatikë

● computer studies [këm'pju:'stadis] n. informatikë

● computing [këm'pju:ting] n. ( computer science) informatikë

* * *

kompjuter

computer

1

computer-aided

computer-assisted

computer-based

computer-controlled

2 n

COMP&DP computador m (AmL), computadora f (AmL), ordenador m (Esp)

ELEC aparato computador de distancias m, calculadora electrónica f, computador f (AmL), computadora f (AmL), ordenador m (Esp)

computer-aided design

computer-aided design and manufacture

computer-aided manufacturing

computer-aided software engineering

computer-aided testing

computer animation

computer art

computer-assisted instruction

computer-assisted learning

computer-assisted setting

computer-assisted translation

computer-assisted typesetting

computer bank

computer-based training

computer-controlled all-relay interlocking

computer family

computer graphics

computer-integrated manufacturing

computer interface

computer literacy

computer logic

computer network

computer-network architecture

computer output on microfilm

computer science

computer security

computer system

computer technology

computer-PBX interface

science

ˈsaɪəns сущ.
1) наука;
область науки to advance, foster, promote science ≈ двигать науку, работать для науки, развивать науку applied science exact science domestic science information science library science linguistic science military science natural science naval science physical science political science social science space science man of science science park Syn: study
2) коллект. естественные науки (тж. natural science/sciences, physical sciences) Ant: arts
3) мастерство, искусство, умение science of chess ≈ мастерство шахматной игры science of manners ≈ умение вести себя Syn: ability, skill
4) техника, техничность( теоретические знания в отличие от практического их применения) The development of the photographic image is both an art and a science. ≈ Для того, чтобы проявить фотоизображение, необходим как навык, так и точные теоретические знания. Ant: art I
1.
5) амер. (Science) Христианская наука (название религиозной вероучения и организации, основанной в США в 1866 году) Syn: Christian Science
5) уст. знание Syn: knowledge наука - pure * чистая наука - social *s общественные науки - applied * прикладная наука - engineering *s технические науки - the * of language наука о языке - the classification of *s классификация наук - man of * ученый, человек науки - the methods of * научные методы - the progress of * успехи в области науки - to reduce smth. to a * превратить что-л. в науку - to apply * to farming внедрить научные методы в сельское хозяйство( собирательнле) естественные науки (тж. natural *s, physical *s) - physics, chemistry and other *s физика. химия и др. естественные науки - materials * материаловедение - * master,* teacher учитель физики, химии, биологии и т. п. (S.) (религия) "Христианская наука" (религиозная организация и этическое учение) (спортивное) тренированность высокий класс, мастерство техничность - a boxer who lacks * боксер без достаточной технической подготовки (устаревшее) знание;
познание > the * of self-defence бокс;
самбо > the noble * (of defence) бокс;
фехтование administrative ~ наука управления ~ наука;
man of science ученый;
applied science прикладная наука computer ~ вычислительная техника computer ~ информатика computer ~ теория вычислительных машин и систем economic ~ экономическая наука forensic ~ судебная наука ~ умение, ловкость;
техничность;
in judo science is more important than strength в борьбе дзюдо ловкость важнее силы information ~ информатика information ~ наука об информации legal ~ правоведение ~ наука;
man of science ученый;
applied science прикладная наука medico-actuarial ~ страховая медицина science собир. естественные науки (тж. natural science или sciences, physical sciences) ~ уст. знание ~ наука;
man of science ученый;
applied science прикладная наука ~ наука ~ умение, ловкость;
техничность;
in judo science is more important than strength в борьбе дзюдо ловкость важнее силы social ~ социология social: ~ общественный;
социальный;
social science социология;
social security социальное обеспечение software ~ вчт. теория программного обеспечения system ~ вчт. системотехника theoretical computer ~ теория вычислительных систем

precision engineering

1. точное машиностроение

 

точное машиностроение
—
[ http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

EN

precision engineering
Research and development, design, manufacture and measurement of high accuracy components and systems. It is related to mechanical, electronic, optical and production engineering, physics, chemistry, and computer and materials science. (Source: ASPE)
[http://www.eionet.europa.eu/gemet/alphabetic?langcode=en]

Тематики

• охрана окружающей среды

EN

• precision engineering

DE

• Feinmechanik

FR

• mécanique de précision

Institute of Electrical and Electronic Engineers

"A society of engineering and electronics professionals based in the United States but boasting membership from numerous other countries/regions. The IEEE (pronounced ""eye triple ee"") focuses on electrical, electronics, computer engineering, and science-related matters."

معهد مهندسي الكهرباء والتقنية الإلكترونية

COSERS

computer science and engineering research study - научно-технические исследования с использованием ЭВМ

CSE

1) Компьютерная техника: Communication Satellite for Experiment

2) Авиация: course set error

3) Американизм: Office of Child Support Enforcement

4) Военный термин: CC Support Element, Canadian SIGINT Establishment, Central Signal Establishment, Client Server Environment, Combined Services Entertainment, Command Support Element, Committee of Security Experts, Communi-cations Security Element, Communications Security Establishment, Critical Section Exclusion, combat support element, common support equipment, communications security equipment, communications support element, communications systems engineer, contingency security element, Center for Software Engineering (CECOM), Cryptologic Support Element (s)

5) Техника: certified systems engineer, check sum error, components and structures engineering, containment steam explosion, containment system experiment

6) Юридический термин: Child Support Enforcement, Connected Series Of Events

7) Бухгалтерия: A Council Of Social Education

8) Фармакология: контрольный стандартный эндотоксин ( Control Standard Endotoxin)

9) Биржевой термин: Calcutta Stock Exchange, Casablanca Stock Exchange, Chittagong Stock Exchange, Colombo Stock Exchange, Copenhagen Stock Exchange, Cyprus Stock Exchange

10) Сокращение: Certificate of Secondary Education, электрод сравнения из сульфата меди

11) Университет: Computer Science And Engineering, Computer Science Education

12) Физиология: Collaborative Sales Engine

13) Электроника: Control systems engineering department

14) Вычислительная техника: core storage element

15) Иммунология: contrasuppressor effector cell

16) Онкология: Common Sense Exam

17) Банковское дело: Фондовая биржа Цинциннати (США; Cincinnati Stock Exchange)

18) Пищевая промышленность: Corn Starch Emitter

19) Фирменный знак: Creative Sports Enterprises

20) Глоссарий компании Сахалин Энерджи: Confined Space Entry

21) Образование: (Committee on Special Education) Комитет по специальному образованию

22) Инвестиции: Cincinnati Stock Exchange

23) Сетевые технологии: Clustered System Environment, circuit switch exchange, control and switching equipment, аппаратура управления и коммуникации, центр коммутации каналов

24) Полимеры: control systems engineering

25) Ядерная физика: Containment Systems Experiment

26) Сахалин Р: Center of Social Expertise

27) Авиационная медицина: crew support equipment

28) Расширение файла: Certified System Engineer

29) Должность: Computer Science Engineering

cse

1) Компьютерная техника: Communication Satellite for Experiment

2) Авиация: course set error

3) Американизм: Office of Child Support Enforcement

4) Военный термин: CC Support Element, Canadian SIGINT Establishment, Central Signal Establishment, Client Server Environment, Combined Services Entertainment, Command Support Element, Committee of Security Experts, Communi-cations Security Element, Communications Security Establishment, Critical Section Exclusion, combat support element, common support equipment, communications security equipment, communications support element, communications systems engineer, contingency security element, Center for Software Engineering (CECOM), Cryptologic Support Element (s)

5) Техника: certified systems engineer, check sum error, components and structures engineering, containment steam explosion, containment system experiment

6) Юридический термин: Child Support Enforcement, Connected Series Of Events

7) Бухгалтерия: A Council Of Social Education

8) Фармакология: контрольный стандартный эндотоксин ( Control Standard Endotoxin)

9) Биржевой термин: Calcutta Stock Exchange, Casablanca Stock Exchange, Chittagong Stock Exchange, Colombo Stock Exchange, Copenhagen Stock Exchange, Cyprus Stock Exchange

10) Сокращение: Certificate of Secondary Education, электрод сравнения из сульфата меди

11) Университет: Computer Science And Engineering, Computer Science Education

12) Физиология: Collaborative Sales Engine

13) Электроника: Control systems engineering department

14) Вычислительная техника: core storage element

15) Иммунология: contrasuppressor effector cell

16) Онкология: Common Sense Exam

17) Банковское дело: Фондовая биржа Цинциннати (США; Cincinnati Stock Exchange)

18) Пищевая промышленность: Corn Starch Emitter

19) Фирменный знак: Creative Sports Enterprises

20) Глоссарий компании Сахалин Энерджи: Confined Space Entry

21) Образование: (Committee on Special Education) Комитет по специальному образованию

22) Инвестиции: Cincinnati Stock Exchange

23) Сетевые технологии: Clustered System Environment, circuit switch exchange, control and switching equipment, аппаратура управления и коммуникации, центр коммутации каналов

24) Полимеры: control systems engineering

25) Ядерная физика: Containment Systems Experiment

26) Сахалин Р: Center of Social Expertise

27) Авиационная медицина: crew support equipment

28) Расширение файла: Certified System Engineer

29) Должность: Computer Science Engineering

COSERS

Техника: computer science and engineering research study

CASE

1) Общая лексика: Consortium for Accreditation of Sonographic Education

2) Военный термин: Combined Arms Synthetic Experiment, Computer-Assisted Software Engineering, Corps Area Support Element, Counteragency for Sabotage and Espionage, communications, analysis, simulation and evaluation, computer-aided system evaluation, computer-automated support equipment, corps and subordinate echelons

3) Техника: Citizens Action for Safe Environment, Citizens Association for Sound Energy, common access switching equipment, computer-aided software/system engineering, coordinating agency for supplier evaluation

4) Автомобильный термин: cranking angle sensing error

5) Телекоммуникации: Common Application Service Element

6) Сокращение: Close Air Support Evaluation, Coherent Active Source Experiment (USA), Combined Arms Systems Engineering, Committee on Academic Science and Engineering, Computer-Aided System Engineering, computer automated, Computer Application Service Elements, Council of American States in Europe, Centers of Advanced Study and Education

7) Электроника: Computer- Aided Systems Engineering

8) Вычислительная техника: Computer Aided Software Engineering, computer-aided science engineering, Common Application Service Element (ISO, OSI), автоматизация научных исследований и экспериментов с помощью компьютера, автоматизированное проектирование систем

9) Транспорт: Continuing Automotive Service Education

10) Деловая лексика: Confidence Accessibility Safety And Efficiency, Confidence, Accessibility, Soundness, And Efficiency

11) Образование: Chicago Academic Standards Examinations

12) Сетевые технологии: Computer-Aided Software Engineering

13) Полимеры: Coatings, Adhesives, Sealants & Elastomers

14) Программирование: аббревиатура от Computer Aided Software Engineering (Автоматизация проектирования программного обеспечения)

15) Автоматика: common application service elements

16) Океанография: Coordinated Air- Sea Experiment

17) Иммунофармакология: Cellulose Acetate Strip Electrophoresis (электрофорез на полоске из ацетата целлюлозы)

18) Макаров: автоматизированная разработка программного обеспечения

case

1) Общая лексика: Consortium for Accreditation of Sonographic Education

2) Военный термин: Combined Arms Synthetic Experiment, Computer-Assisted Software Engineering, Corps Area Support Element, Counteragency for Sabotage and Espionage, communications, analysis, simulation and evaluation, computer-aided system evaluation, computer-automated support equipment, corps and subordinate echelons

3) Техника: Citizens Action for Safe Environment, Citizens Association for Sound Energy, common access switching equipment, computer-aided software/system engineering, coordinating agency for supplier evaluation

4) Автомобильный термин: cranking angle sensing error

5) Телекоммуникации: Common Application Service Element

6) Сокращение: Close Air Support Evaluation, Coherent Active Source Experiment (USA), Combined Arms Systems Engineering, Committee on Academic Science and Engineering, Computer-Aided System Engineering, computer automated, Computer Application Service Elements, Council of American States in Europe, Centers of Advanced Study and Education

7) Электроника: Computer- Aided Systems Engineering

8) Вычислительная техника: Computer Aided Software Engineering, computer-aided science engineering, Common Application Service Element (ISO, OSI), автоматизация научных исследований и экспериментов с помощью компьютера, автоматизированное проектирование систем

9) Транспорт: Continuing Automotive Service Education

10) Деловая лексика: Confidence Accessibility Safety And Efficiency, Confidence, Accessibility, Soundness, And Efficiency

11) Образование: Chicago Academic Standards Examinations

12) Сетевые технологии: Computer-Aided Software Engineering

13) Полимеры: Coatings, Adhesives, Sealants & Elastomers

14) Программирование: аббревиатура от Computer Aided Software Engineering (Автоматизация проектирования программного обеспечения)

15) Автоматика: common application service elements

16) Океанография: Coordinated Air- Sea Experiment

17) Иммунофармакология: Cellulose Acetate Strip Electrophoresis (электрофорез на полоске из ацетата целлюлозы)

18) Макаров: автоматизированная разработка программного обеспечения

Wilkes, Maurice Vincent

SUBJECT AREA: Electronics and information technology

[br]

b. 26 June 1913 Stourbridge, Worcestershire, England

[br]

English physicist who was jointly responsible for the construction of the EDS AC computer.

[br]

Educated at King Edward VI Grammar School, Stourbridge, where he began to make radio sets and read Wireless World, Wilkes went to St John's College, Cambridge, in 1931, graduating as a Wrangler in the Mathematical Tripos in 1934. He then carried out research at the Cavendish Laboratory, becoming a demonstrator in 1937. During the Second World War he worked on radar, differential analysers and operational research at the Bawdsey Research Station and other air-defence establishments. In 1945 he returned to Cambridge as a lecturer and as Acting Director of the Mathematical (later Computer) Laboratory, serving as Director from 1946 to 1970.

During the late 1940s, following visits to the USA for computer courses and to see the ENIAC computer, with the collaboration of colleagues he constructed the Cambridge University digital computer EDSAC (for Electronic Delay Storage Automatic Computer), using ultrasonic delay lines for data storage. In the mid-1950s a second machine, EDSAC2, was constructed using a magnetic-core memory. In 1965 he became Professor of Computer Technology. After retirement he worked for the Digital Electronic Corporation (DEC) from 1981 to 1986, serving also as Adjunct Professor of Computer Science and Electrical Engineering at the Massachusetts Institute of Technology from 1981 to 1985. In 1990 he became a research strategy consultant to the Olivetti Research Directorate.

[br]

Principal Honours and Distinctions

FRS 1956. First President, British Computer Society 1957–60. Honorary DSc Munich 1978, Bath 1987. Honorary DTech Linkoping 1975. FEng 1976. Institution of Electrical Engineers Faraday Medal 1981.

Bibliography

1948, "The design of a practical high-speed computing machine", Proceedings of the Royal Society A195:274 (describes EDSAC).

1949, Oscillation of the Earth's Atmosphere.

1951, Preparation of Programs for an Electronic Digital Computer, New York: Addison-Wesley.

1956, Automatic Digital Computers, London: Methuen. 1966, A Short Introduction to Numerical Analysis.

1968, Time-Sharing Computer Systems: McDonald \& Jane's.

1979, The Cambridge CAP Computer and its Operating System: H.Holland.

1985, Memoirs of a Computer Pioneer, Cambridge, Mass.: MIT Press (autobiography).

Further Reading

B.Randell (ed.), 1973, The Origins of Digital Computers, Berlin: Springer-Verlag.

See also: Forrester, Jay Wright; Goldstine, Herman H.; Strachey, Christopher

KF

Artificial Intelligence

   1) Programs and the Complexity of Human Mental Processes

   In my opinion, none of [these programs] does even remote justice to the complexity of human mental processes. Unlike men, "artificially intelligent" programs tend to be single minded, undistractable, and unemotional. (Neisser, 1967, p. 9)

   2) Artificial Intelligence Is an Engineering Discipline

   Future progress in [artificial intelligence] will depend on the development of both practical and theoretical knowledge.... As regards theoretical knowledge, some have sought a unified theory of artificial intelligence. My view is that artificial intelligence is (or soon will be) an engineering discipline since its primary goal is to build things. (Nilsson, 1971, pp. vii-viii)

   3) A Sceptical View of Artificial Intelligence

   Most workers in AI [artificial intelligence] research and in related fields confess to a pronounced feeling of disappointment in what has been achieved in the last 25 years. Workers entered the field around 1950, and even around 1960, with high hopes that are very far from being realized in 1972. In no part of the field have the discoveries made so far produced the major impact that was then promised.... In the meantime, claims and predictions regarding the potential results of AI research had been publicized which went even farther than the expectations of the majority of workers in the field, whose embarrassments have been added to by the lamentable failure of such inflated predictions....

   When able and respected scientists write in letters to the present author that AI, the major goal of computing science, represents "another step in the general process of evolution"; that possibilities in the 1980s include an all-purpose intelligence on a human-scale knowledge base; that awe-inspiring possibilities suggest themselves based on machine intelligence exceeding human intelligence by the year 2000 [one has the right to be skeptical]. (Lighthill, 1972, p. 17)

   4) Just as Astronomy Succeeded Astrology, the Discovery of Intellectual Processes in Machines Should Lead to a Science, Eventually

   Just as astronomy succeeded astrology, following Kepler's discovery of planetary regularities, the discoveries of these many principles in empirical explorations on intellectual processes in machines should lead to a science, eventually. (Minsky & Papert, 1973, p. 11)

   5) Problems in Machine Intelligence Arise Because Things Obvious to Any Person Are Not Represented in the Program

   Many problems arise in experiments on machine intelligence because things obvious to any person are not represented in any program. One can pull with a string, but one cannot push with one.... Simple facts like these caused serious problems when Charniak attempted to extend Bobrow's "Student" program to more realistic applications, and they have not been faced up to until now. (Minsky & Papert, 1973, p. 77)

   6) The Meaning of a Symbolic Description

   What do we mean by [a symbolic] "description"? We do not mean to suggest that our descriptions must be made of strings of ordinary language words (although they might be). The simplest kind of description is a structure in which some features of a situation are represented by single ("primitive") symbols, and relations between those features are represented by other symbols-or by other features of the way the description is put together. (Minsky & Papert, 1973, p. 11)

   7) The Principle of Artificial Intelligence

   [AI is] the use of computer programs and programming techniques to cast light on the principles of intelligence in general and human thought in particular. (Boden, 1977, p. 5)

   8) Artificial Intelligence Recognizes the Need for Knowledge in Its Systems

   The word you look for and hardly ever see in the early AI literature is the word knowledge. They didn't believe you have to know anything, you could always rework it all.... In fact 1967 is the turning point in my mind when there was enough feeling that the old ideas of general principles had to go.... I came up with an argument for what I called the primacy of expertise, and at the time I called the other guys the generalists. (Moses, quoted in McCorduck, 1979, pp. 228-229)

   9) Artificial Intelligence Is Psychology in a Particularly Pure and Abstract Form

   The basic idea of cognitive science is that intelligent beings are semantic engines-in other words, automatic formal systems with interpretations under which they consistently make sense. We can now see why this includes psychology and artificial intelligence on a more or less equal footing: people and intelligent computers (if and when there are any) turn out to be merely different manifestations of the same underlying phenomenon. Moreover, with universal hardware, any semantic engine can in principle be formally imitated by a computer if only the right program can be found. And that will guarantee semantic imitation as well, since (given the appropriate formal behavior) the semantics is "taking care of itself" anyway. Thus we also see why, from this perspective, artificial intelligence can be regarded as psychology in a particularly pure and abstract form. The same fundamental structures are under investigation, but in AI, all the relevant parameters are under direct experimental control (in the programming), without any messy physiology or ethics to get in the way. (Haugeland, 1981b, p. 31)

    10) There Are Many Types of Reasoning

   There are many different kinds of reasoning one might imagine:

    Formal reasoning involves the syntactic manipulation of data structures to deduce new ones following prespecified rules of inference. Mathematical logic is the archetypical formal representation. Procedural reasoning uses simulation to answer questions and solve problems. When we use a program to answer What is the sum of 3 and 4? it uses, or "runs," a procedural model of arithmetic. Reasoning by analogy seems to be a very natural mode of thought for humans but, so far, difficult to accomplish in AI programs. The idea is that when you ask the question Can robins fly? the system might reason that "robins are like sparrows, and I know that sparrows can fly, so robins probably can fly."

    Generalization and abstraction are also natural reasoning process for humans that are difficult to pin down well enough to implement in a program. If one knows that Robins have wings, that Sparrows have wings, and that Blue jays have wings, eventually one will believe that All birds have wings. This capability may be at the core of most human learning, but it has not yet become a useful technique in AI.... Meta- level reasoning is demonstrated by the way one answers the question What is Paul Newman's telephone number? You might reason that "if I knew Paul Newman's number, I would know that I knew it, because it is a notable fact." This involves using "knowledge about what you know," in particular, about the extent of your knowledge and about the importance of certain facts. Recent research in psychology and AI indicates that meta-level reasoning may play a central role in human cognitive processing. (Barr & Feigenbaum, 1981, pp. 146-147)

    11) Programs Are Beginning to Do Things That Critics Have Asserted to Be Impossible

   Suffice it to say that programs already exist that can do things-or, at the very least, appear to be beginning to do things-which ill-informed critics have asserted a priori to be impossible. Examples include: perceiving in a holistic as opposed to an atomistic way; using language creatively; translating sensibly from one language to another by way of a language-neutral semantic representation; planning acts in a broad and sketchy fashion, the details being decided only in execution; distinguishing between different species of emotional reaction according to the psychological context of the subject. (Boden, 1981, p. 33)

    12) The Synthesis of Man and Machine

   Can the synthesis of Man and Machine ever be stable, or will the purely organic component become such a hindrance that it has to be discarded? If this eventually happens-and I have... good reasons for thinking that it must-we have nothing to regret and certainly nothing to fear. (Clarke, 1984, p. 243)

    13) The Thesis of Good Old-Fashioned Artificial Intelligence (GOFAI)

   The thesis of GOFAI... is not that the processes underlying intelligence can be described symbolically... but that they are symbolic. (Haugeland, 1985, p. 113)

    14) Artificial Intelligence Provides a Useful Approach to Psychological and Psychiatric Theory Formation

   It is all very well formulating psychological and psychiatric theories verbally but, when using natural language (even technical jargon), it is difficult to recognise when a theory is complete; oversights are all too easily made, gaps too readily left. This is a point which is generally recognised to be true and it is for precisely this reason that the behavioural sciences attempt to follow the natural sciences in using "classical" mathematics as a more rigorous descriptive language. However, it is an unfortunate fact that, with a few notable exceptions, there has been a marked lack of success in this application. It is my belief that a different approach-a different mathematics-is needed, and that AI provides just this approach. (Hand, quoted in Hand, 1985, pp. 6-7)

    15) Four Kinds of Artificial Intelligence

   We might distinguish among four kinds of AI.

   ♦ Nonpsychological AI

   Research of this kind involves building and programming computers to perform tasks which, to paraphrase Marvin Minsky, would require intelligence if they were done by us. Researchers in nonpsychological AI make no claims whatsoever about the psychological realism of their programs or the devices they build, that is, about whether or not computers perform tasks as humans do.

   ♦ Weak Psychological AI

   Research here is guided by the view that the computer is a useful tool in the study of mind. In particular, we can write computer programs or build devices that simulate alleged psychological processes in humans and then test our predictions about how the alleged processes work. We can weave these programs and devices together with other programs and devices that simulate different alleged mental processes and thereby test the degree to which the AI system as a whole simulates human mentality. According to weak psychological AI, working with computer models is a way of refining and testing hypotheses about processes that are allegedly realized in human minds.

   ♦ Strong Psychological AI

... According to this view, our minds are computers and therefore can be duplicated by other computers. Sherry Turkle writes that the "real ambition is of mythic proportions, making a general purpose intelligence, a mind." (Turkle, 1984, p. 240) The authors of a major text announce that "the ultimate goal of AI research is to build a person or, more humbly, an animal." (Charniak & McDermott, 1985, p. 7)

   ♦ Suprapsychological AI

   Research in this field, like strong psychological AI, takes seriously the functionalist view that mentality can be realized in many different types of physical devices. Suprapsychological AI, however, accuses strong psychological AI of being chauvinisticof being only interested in human intelligence! Suprapsychological AI claims to be interested in all the conceivable ways intelligence can be realized. (Flanagan, 1991, pp. 241-242)

    16) Determination of Relevance of Rules in Particular Contexts

   Even if the [rules] were stored in a context-free form the computer still couldn't use them. To do that the computer requires rules enabling it to draw on just those [ rules] which are relevant in each particular context. Determination of relevance will have to be based on further facts and rules, but the question will again arise as to which facts and rules are relevant for making each particular determination. One could always invoke further facts and rules to answer this question, but of course these must be only the relevant ones. And so it goes. It seems that AI workers will never be able to get started here unless they can settle the problem of relevance beforehand by cataloguing types of context and listing just those facts which are relevant in each. (Dreyfus & Dreyfus, 1986, p. 80)

    17) Form and Content Are Not Fundamentally Different

   Perhaps the single most important idea to artificial intelligence is that there is no fundamental difference between form and content, that meaning can be captured in a set of symbols such as a semantic net. (G. Johnson, 1986, p. 250)

    18) The Assumption That the Mind Is a Formal System

   Artificial intelligence is based on the assumption that the mind can be described as some kind of formal system manipulating symbols that stand for things in the world. Thus it doesn't matter what the brain is made of, or what it uses for tokens in the great game of thinking. Using an equivalent set of tokens and rules, we can do thinking with a digital computer, just as we can play chess using cups, salt and pepper shakers, knives, forks, and spoons. Using the right software, one system (the mind) can be mapped into the other (the computer). (G. Johnson, 1986, p. 250)

    19) A Statement of the Primary and Secondary Purposes of Artificial Intelligence

   The primary goal of Artificial Intelligence is to make machines smarter.

   The secondary goals of Artificial Intelligence are to understand what intelligence is (the Nobel laureate purpose) and to make machines more useful (the entrepreneurial purpose). (Winston, 1987, p. 1)

    20) Mathematical Logic Provides the Basis for Theory in AI

   The theoretical ideas of older branches of engineering are captured in the language of mathematics. We contend that mathematical logic provides the basis for theory in AI. Although many computer scientists already count logic as fundamental to computer science in general, we put forward an even stronger form of the logic-is-important argument....

   AI deals mainly with the problem of representing and using declarative (as opposed to procedural) knowledge. Declarative knowledge is the kind that is expressed as sentences, and AI needs a language in which to state these sentences. Because the languages in which this knowledge usually is originally captured (natural languages such as English) are not suitable for computer representations, some other language with the appropriate properties must be used. It turns out, we think, that the appropriate properties include at least those that have been uppermost in the minds of logicians in their development of logical languages such as the predicate calculus. Thus, we think that any language for expressing knowledge in AI systems must be at least as expressive as the first-order predicate calculus. (Genesereth & Nilsson, 1987, p. viii)

    21) Perceptual Structures Can Be Represented as Lists of Elementary Propositions

   In artificial intelligence studies, perceptual structures are represented as assemblages of description lists, the elementary components of which are propositions asserting that certain relations hold among elements. (Chase & Simon, 1988, p. 490)

    22) Definitions of Artificial Intelligence

   Artificial intelligence (AI) is sometimes defined as the study of how to build and/or program computers to enable them to do the sorts of things that minds can do. Some of these things are commonly regarded as requiring intelligence: offering a medical diagnosis and/or prescription, giving legal or scientific advice, proving theorems in logic or mathematics. Others are not, because they can be done by all normal adults irrespective of educational background (and sometimes by non-human animals too), and typically involve no conscious control: seeing things in sunlight and shadows, finding a path through cluttered terrain, fitting pegs into holes, speaking one's own native tongue, and using one's common sense. Because it covers AI research dealing with both these classes of mental capacity, this definition is preferable to one describing AI as making computers do "things that would require intelligence if done by people." However, it presupposes that computers could do what minds can do, that they might really diagnose, advise, infer, and understand. One could avoid this problematic assumption (and also side-step questions about whether computers do things in the same way as we do) by defining AI instead as "the development of computers whose observable performance has features which in humans we would attribute to mental processes." This bland characterization would be acceptable to some AI workers, especially amongst those focusing on the production of technological tools for commercial purposes. But many others would favour a more controversial definition, seeing AI as the science of intelligence in general-or, more accurately, as the intellectual core of cognitive science. As such, its goal is to provide a systematic theory that can explain (and perhaps enable us to replicate) both the general categories of intentionality and the diverse psychological capacities grounded in them. (Boden, 1990b, pp. 1-2)

    23) The Computer Can Not Be a Model of the Mind

   Because the ability to store data somewhat corresponds to what we call memory in human beings, and because the ability to follow logical procedures somewhat corresponds to what we call reasoning in human beings, many members of the cult have concluded that what computers do somewhat corresponds to what we call thinking. It is no great difficulty to persuade the general public of that conclusion since computers process data very fast in small spaces well below the level of visibility; they do not look like other machines when they are at work. They seem to be running along as smoothly and silently as the brain does when it remembers and reasons and thinks. On the other hand, those who design and build computers know exactly how the machines are working down in the hidden depths of their semiconductors. Computers can be taken apart, scrutinized, and put back together. Their activities can be tracked, analyzed, measured, and thus clearly understood-which is far from possible with the brain. This gives rise to the tempting assumption on the part of the builders and designers that computers can tell us something about brains, indeed, that the computer can serve as a model of the mind, which then comes to be seen as some manner of information processing machine, and possibly not as good at the job as the machine. (Roszak, 1994, pp. xiv-xv)

    24) Computers Will Not Always Be Inferior to Human Brains

   The inner workings of the human mind are far more intricate than the most complicated systems of modern technology. Researchers in the field of artificial intelligence have been attempting to develop programs that will enable computers to display intelligent behavior. Although this field has been an active one for more than thirty-five years and has had many notable successes, AI researchers still do not know how to create a program that matches human intelligence. No existing program can recall facts, solve problems, reason, learn, and process language with human facility. This lack of success has occurred not because computers are inferior to human brains but rather because we do not yet know in sufficient detail how intelligence is organized in the brain. (Anderson, 1995, p. 2)

center

центр; пункт; пост; узел; середина; научпо-иселсдовагсльскпй центр, НИЦ; выводить на середину; арт. корректировать; центрировать;

air C3 center — центр руководства, управления и связи ВВС

air defense training and test(ing) center — учебно-испытательный центр ПВО

airborne battlefield C2 center — ВКП оперативного управления боевыми действиями

Armored (Combat) Training center — учебный центр бронетанковых войск

Army aviation (tactical) center — центр управления действиями армейской авиации

Defense Logistics (Services) center — центр тылового обеспечения МО

general supply (commodity) center — центр [пункт] снабжения предметами общего предназначения

hard launch (operations) control center — ркт. центр [пункт] управления пуском, защищенный от (поражающих факторов) ЯВ

large-scale surface C2 center — крупный наземный центр оперативного управления

launch (operations) control center — ркт. пункт управления стартового комплекса [пуском ракет]

military air traffic (control) center — военный центр УВД

mountain (warfare) training center — центр обучения войск действиям в горах

rear area operation(s) center — оперативный центр тылового района

replacement (depot) training center — учебный центр подготовки пополнений

sector (air operations) control center — центр управления действиями авиации в секторе ПВО

situation center (White House) — центр оценки обстановки (в Белом доме)

space defense C2 center — центр оперативного управления средствами ПКО

tactical fighter weapons (employment development) center — центр разработки способов боевого применения оружия истребителей ТА

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— emergency control center

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— Enlisted Evaluation center

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— entertainment center

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— FA tactical operations center

— family and community center

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— Federal contract research center

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— fixed communications center

— Fleet Analysis center

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— Fleet Command center

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— flight communications center

— flight control center

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— food service center

— foreign military aid training center

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— fortified center

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— general development center

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— ground support equipment center

— guided weapon center

— helicopter direction center

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— High Energy Laser center

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— imagination center

— indoctrination center

— industrial supply center

— infantry training center

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— information center

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— initial training center

— in-out processing center

— integrated operational intelligence center

— intelligence and operational information collection center

— intelligence center

— intelligence fusion center

— intelligence information center

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— intelligence processing and evaluation center

— intelligence threat analysis center

— interrogation center

— inventory control center

— joint air-photo center

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— joint command operations' center

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— Joint Reconnaissance center

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— jump tactical operations center

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— labor supervision center

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— land-based signal monitoring center

— Landing Force Training center

— landing zone control center

— Leadership and Management Development center

— learning resource center

— Library Service center

— logistical center

— logistical operations center

— logistics communications center

— logistics coordinating center

— logistics readiness center

— logistics services center

— logistics support operations center

— main command center

— Main Naval Communications center

— main signal center

— maintenance center

— maintenance control center

— maintenance management center

— major development center

— management center

— map distribution center

— Marine Corps Air Ground Intelligence center

— Marine Corps Air/Ground Combat Training center

— Marine Corps Development center

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— Marine Corps Landing Force Development center

— market center

— material and maintenance control center

— material management center

— Materials and Mechanics Research center

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— medical control center

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— metrology and calibration center

— military aircraft storage and disposition center

— military center

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— Military Intelligence Unit Training center

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— military personnel records center

— military R & D center

— military service propaganda center

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— missile center

— missile defense center

— missile development center

— missile operations center

— missile space center

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— mobile air combat operations center

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— mobile ground combat information center

— mobile signal center

— Mobility Equipment R&D center

— mobilization center

— mock center

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— mortar-fire control center

— mortar-fire direction center

— motor transport center

— movement control center

— movement report control center

— MP training center

— multinational nuclear fuel cycle center

— multiservice center

— National Assessment center

— National Bidders Control center

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— National Command center

— National Communications System Operations center

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— National Naval Medical center

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— National Training center

— NATO Maintenance Supply Service center

— NATO Supply center

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— NBC collection center

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— NBC sub-collection center

— network control center

— night observation device information analysis center

— nodal communication center

— North American Air Defense Combat Operations center

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— nuclear fuel cycle center

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— officer evaluation center

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— operational center

— operational tactical control center

— operations control center

— ordnance center

— ordnance test center

— overseas replacement center

— over-the-counter message center

— pathfinder control center

— Personnel and Administration center

— personnel data center

— personnel management center

— personnel operations center

— personnel records center

— personnel recovery center

— planning center

— post concentration center

— premission briefing center

— printing and publications center

— prisoner interrogation center

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— programming and trainmg center

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— public works center

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— radar direction center

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— radiation analysis center

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— radiological center

— range center

— rear area combat operations center

— rear area information/intelligence center

— rear security control center

— rear switching center

— reassignment center

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— recruit training center

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— regional control center

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— religious retreat center

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— remote area conflict information center

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— rest center

— restructured general support center

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— rural civilian defense center

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— secured communications center

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— seismic array analysis center

— semi-automatic ground environment manual control center

— service center

— service operations center

— SHAPE Alternate Command center

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— tactical weapons guidance and control information and analysis center

— target information center

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— training center

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— urban center

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— weapon systems programs center

— weapon training center

— weapons information and analysis center

— weapons monitoring center

— weapons systems management center

— wheeled vehicle maintenance center

— winter warfare training center

— wire distribution center

Wozniak, Stephen G.

SUBJECT AREA: Electronics and information technology

[br]

b. 1950 Sunnyvale, California, USA

[br]

American computer engineer who with Steven Jobs built the first home computer.

[br]

Bored by school at Sunnyvale, the young Wozniak became interested in computers and at the age of only 13 years he constructed a transistorized calculator that won a prize at the Bay Area Science Fair. After high school, he went to the University of Colorado, but he left the following year to study at the De Anza College in Cupertino, California, finally dropping out of formal education altogether and working as a programmer for a small computer company. In 1971 he made another attempt at studying for a degree in engineering, this time at the University of California at Berkeley, but he again dropped out and went to work for Hewlett-Packard, where he met 16-year-old Steve Jobs. Joining the Homebrew Computer Club, and with Jobs's help, he built a home computer based on the MOS Technology 8-bit, 6502 microprocessor chip. With 4 K of random access memory (RAM) and the first BASIC interpreter written by Wozniak himself, he demonstrated the computer to Hewlett-Packard management, but they showed little interest in taking it up. With Jobs he therefore founded Apple Company, and with assembly in Jobs's home they found an interested buyer in the shape of Paul Terrill, owner of the newly established Byte Shop chain store, who ordered 100 boards at US$500 each. As a result, with the support of a backer, Mike Markkula, Wozniak in 1976 designed a second computer, the Apple II, which had 16 K of RAM and was offered for sale (without a monitor) at $1195. This was an immediate success and sales rose from $775,000 in 1977 to $335 million in 1981 and $983 million in 1983. In the meantime, however, Wozniak was seriously injured in a plane crash in 1980. He recovered slowly from his injuries and in 1982 returned to college to complete his degree course, after which he spent much of his time with his family. Eventually he became increasingly unhappy with the chaotic management at Apple, and he left the company in 1985, subsequently forming his own computer company, Cloud 9.

[br]

Principal Honours and Distinctions

First National Technology Medal (with Jobs) 1985.

Further Reading

M.Moritz, 1984, The Little Kingdom. The Private Story of Apple Computers.

J.S.Young, 1988, Steve Jobs: The Journey is the Reward: Scott Foreman \& Co.

KF

техника

жен.
1) engineering;
technics мн., technique техника безопасности наука и техника
2) (приемы исполнения) technique овладеть техникой
3) коллект. (оборудование, вооружение) (technical) equipment;
(машины) machinery
4) воен. materiel боевая техника

техник|а - ж.
1. (область человеческой деятельности) engineering technology, industrial arts;
передовая ~ advanced technology;
~ связи communication technologies;
достижения ~и technical achievements, achievements in technology;
область ~и field of technology;
тенденции в развитии ~и trends in technology;
вычислительная ~ computer science;
счётно-вычислительная ~ computer technology;

2. собир. (оборудование) equipment, machinery, plant;
беречь ~у look after machinery;
боевая ~ fighting equipment;
material;
морально устаревшая ~ morally obsolete equipment;
~ новых поколений new generations of equipment;
особо точная ~ high-precision equipment;
разгрузочная ~ unloading facilities;
сложная ~ sophisticated equipment;
внедрение новой ~и и технологии introduction of the latest machinery and technology;

3. (приёмы исполнения) technique(s) ;
~ шахматной игры chess technique;
музыкальная ~ musical technique;
~ работы operational techniques pl. ;
~ обработки processing technique;
~ производства manufacturing technique;
~ работы work/operation technique;
~ руководства management technique;
~ безопасности safety devices, accident prevention;
нормы ~и безопасности safety standard;
правила ~и безопасности factory safety rules;
соблюдать правила ~и безопасности observe safety rules and regulations.

ECS

1) Общая лексика: Education Counselling Service

2) Компьютерная техника: embedded computer system

3) Авиация: система кондиционирования воздуха

4) Американизм: Ethics Compliance Standard

5) Спорт: Extreme Combat Specialists

6) Военный термин: Electronic Combat Support, Engineer Combat System, Exercise Control System, electronic control sensor, electronic countermeasures squadron, electronic countermeasures system, emission control system, engagement control system, engineering change schedule, engineering change sheet, entry control subsystem, environmental control system, equipment concentration site, equipment configuration study, exploder control sensor

7) Техника: European fixed service satellite system, edge control seamer, editing control suite, electrical connector subassembly, electrocardioscanner, electronic clutch system, electronic composing system, electronic cooling system, electronics control system, emergency control station, enable control system, engineering control system, environmental chamber shroud, error correction servo, error correction signals, extended core storage, extensive communications system, extinction-coagulation-sedimentation

8) Бухгалтерия: Electronic Clearing Service

9) Автомобильный термин: evaporation control system (Chrysler)

10) Сокращение: Ecuadorian Sucre, Electrochemical Society, Electronic Combat Squadron (USA), Electronic Commerce Services (secure data transmission), Electronic Courier Services (secure data transmission) March 2000, Emergency Coolant System, Engagement Control Station, European Communications Satellite, Experimental Communications Satellite

11) Университет: Electronic And Computer Science, Electronic Citation System

12) Электроника: European Communication Satellite

13) Вычислительная техника: Enhanced Chip Set (Amiga, Commodore), Environmental Control System (Space)

14) Связь: emergency call service

15) Космонавтика: Environmental Control Subsystem, European regional communication satellite programme, система климатизации, система контроля среды, система обеспечения температурно-влажностного режима и режима чистоты

16) Фирменный знак: Economic Consultancy House, Electronic Control Services Company, Engineered Compost Systems

17) Экология: ЭКС

18) Энергетика: Energy Charter Secretariat

19) СМИ: English Communications Service

20) Деловая лексика: Energy Consumption Saver, Enhanced Customer Service

21) Глоссарий компании Сахалин Энерджи: Экологическая компания Сахалина (ЭКС)

22) Образование: Educational Cost Sharing, Exceptional Children Services

23) Сетевые технологии: Enterprise Control Station, external cache socket

24) Автоматика: expert control system

25) Авиационная медицина: environment(al) control system

26) Макаров: energy control system

27) Безопасность: Encryption Control Signal, Encryption Control System, electronic countersurveillance

28) Расширение файла: Electronic Chart Systems, Enhanced Chip Set

29) Нефть и газ: Ecological Company of Sakhalin, Environmental Company of Sakhalin, Elemental Capture Sonde

30) Общественная организация: Education Commission of the States

31) НАСА: EOF Core System

ecs

1) Общая лексика: Education Counselling Service

2) Компьютерная техника: embedded computer system

3) Авиация: система кондиционирования воздуха

4) Американизм: Ethics Compliance Standard

5) Спорт: Extreme Combat Specialists

6) Военный термин: Electronic Combat Support, Engineer Combat System, Exercise Control System, electronic control sensor, electronic countermeasures squadron, electronic countermeasures system, emission control system, engagement control system, engineering change schedule, engineering change sheet, entry control subsystem, environmental control system, equipment concentration site, equipment configuration study, exploder control sensor

7) Техника: European fixed service satellite system, edge control seamer, editing control suite, electrical connector subassembly, electrocardioscanner, electronic clutch system, electronic composing system, electronic cooling system, electronics control system, emergency control station, enable control system, engineering control system, environmental chamber shroud, error correction servo, error correction signals, extended core storage, extensive communications system, extinction-coagulation-sedimentation

8) Бухгалтерия: Electronic Clearing Service

9) Автомобильный термин: evaporation control system (Chrysler)

10) Сокращение: Ecuadorian Sucre, Electrochemical Society, Electronic Combat Squadron (USA), Electronic Commerce Services (secure data transmission), Electronic Courier Services (secure data transmission) March 2000, Emergency Coolant System, Engagement Control Station, European Communications Satellite, Experimental Communications Satellite

11) Университет: Electronic And Computer Science, Electronic Citation System

12) Электроника: European Communication Satellite

13) Вычислительная техника: Enhanced Chip Set (Amiga, Commodore), Environmental Control System (Space)

14) Связь: emergency call service

15) Космонавтика: Environmental Control Subsystem, European regional communication satellite programme, система климатизации, система контроля среды, система обеспечения температурно-влажностного режима и режима чистоты

16) Фирменный знак: Economic Consultancy House, Electronic Control Services Company, Engineered Compost Systems

17) Экология: ЭКС

18) Энергетика: Energy Charter Secretariat

19) СМИ: English Communications Service

20) Деловая лексика: Energy Consumption Saver, Enhanced Customer Service

21) Глоссарий компании Сахалин Энерджи: Экологическая компания Сахалина (ЭКС)

22) Образование: Educational Cost Sharing, Exceptional Children Services

23) Сетевые технологии: Enterprise Control Station, external cache socket

24) Автоматика: expert control system

25) Авиационная медицина: environment(al) control system

26) Макаров: energy control system

27) Безопасность: Encryption Control Signal, Encryption Control System, electronic countersurveillance

28) Расширение файла: Electronic Chart Systems, Enhanced Chip Set

29) Нефть и газ: Ecological Company of Sakhalin, Environmental Company of Sakhalin, Elemental Capture Sonde

30) Общественная организация: Education Commission of the States

31) НАСА: EOF Core System