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21 основная функциональность системы
Programming: basic system functionality, main functionality of systemУниверсальный русско-английский словарь > основная функциональность системы
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22 interface
1) граница раздела; поверхность раздела || разделять; являться границей или поверхностью раздела || граничный; расположенный на границе или поверхности раздела ( двух сред); разделяющий2) вчт интерфейс (программное или аппаратное средство взаимодействия и обмена информацией между устройствами, между программами, между устройствами и программами или между человеком и компьютером) || представлять собой интерфейс; служить интерфейсом; снабжать интерфейсом || интерфейсный3) сопряжение; стык; согласование || сопрягать; стыковать; согласовывать || сопрягающий; стыковочный; согласующий4) устройство сопряжения; стыковочный узел; согласующее устройство5) взаимодействие; связь || взаимодействовать; связывать(ся) || взаимодействующий; связанный6) средство взаимодействия; устройство связи7) смежная область (напр. наук) || смежный; относящийся к смежной области (напр. наук)•- air-epi interface
- Apple desktop interface - broadband interface
- call-level interface
- cathode interface
- CD-ROM interface
- channel interface
- chatbot interface
- command interface
- command-line interface
- common gateway interface - composite video interface - computer-to-cassette interface - desktop management interface
- dielectric interface
- diffuse interface
- digital-multiplexed interface - electrical interface
- enhanced IDE interface - expansion interface
- fiber channel interface - flat panel interface
- FP interface
- friendly user interface
- front-end interface
- general circuit interface - hard disk interface
- hardware interface
- head-disk interface
- heterojunction interface
- high performance parallel interface
- human-computer interface
- human-machine interface
- iconic interface
- IDE interface
- infrared interface
- input/output interface
- integrated device electronics interface
- intelligent interface - inter-carrier interface - intuitive user interface - keyboard interface
- land interface
- layered interface - man-computer interface
- man-machine interface - mouse interface
- multiple document interface - Panasonic interface
- parallel interface
- peripheral interface - p-n junction interface
- physical interface
- planar interface
- plastic interface - processor interface
- processor-to-cassette interface
- program interface
- programmable interface
- programmable communications interface
- programmable peripheral interface
- radar-computer interface - RGB TTL interface
- RS232 interface
- RS232C interface
- RS-422 interface
- satellite interface
- scalable coherent interface - seed-melt interface
- serial interface
- serial communication interface
- serial communication interface plus
- serial peripheral interface - software interface
- Sony interface - standard interface
- status control interface
- studio interface
- subscriber-line interface - system interface
- system programming interface
- tape drive interface
- tape backup drive interface - transmitter-receiver interface - visual interface
- WIMP interface -
23 interface
1) граница раздела; поверхность раздела || разделять; являться границей или поверхностью раздела || граничный; расположенный на границе или поверхности раздела ( двух сред); разделяющий2) вчт. интерфейс (программное или аппаратное средство взаимодействия и обмена информацией между устройствами, между программами, между устройствами и программами или между человеком и компьютером) || представлять собой интерфейс; служить интерфейсом; снабжать интерфейсом || интерфейсный3) сопряжение; стык; согласование || сопрягать; стыковать; согласовывать || сопрягающий; стыковочный; согласующий4) устройство сопряжения; стыковочный узел; согласующее устройство5) взаимодействие; связь || взаимодействовать; связывать(ся) || взаимодействующий; связанный6) средство взаимодействия; устройство связи7) смежная область (напр. наук) || смежный; относящийся к смежной области (напр. наук)•- advanced SCSI programming interface
- advanced technology attachment packet interface
- advanced technology attachment software programming interface
- AES/EBU interface
- air-epi interface
- Apple desktop interface
- application binary interface
- application programming interface
- application transaction management interface
- attachment unit interface
- Audio Engineering Society/European Broadcasting Union interface
- audio interface
- baseband interface
- basic rate interface
- BlueTooth interface
- Borland graphic interface
- brain-machine interface
- broadband interface
- call-level interface
- cathode interface
- CD-ROM interface
- channel interface
- chatbot interface
- command interface
- command-line interface
- common gateway interface
- common programming interface for communications
- communication interface
- composite video interface
- computer graphics interface
- computer interface
- computer-to-cassette interface
- computer-to-PBX interface
- copper distributed data interface
- data trunk interface
- deposit-substrate interface
- desktop management interface
- dielectric interface
- diffuse interface
- digital-multiplexed interface
- direct driver interface
- display control interface
- DOS protected mode interface
- EIA interface
- electrical interface
- enhanced IDE interface
- enhanced integrated device electronics interface
- enhanced small disk interface
- epi-substrate interface
- expansion interface
- fiber channel interface
- fiber distributed data interface
- film-substrate interface
- flat panel interface
- FP interface
- friendly user interface
- front-end interface
- general circuit interface
- graphic device interface
- graphical user interface
- growth interface
- hard disk interface
- hardware interface
- head-disk interface
- heterojunction interface
- high performance parallel interface
- human-computer interface
- human-machine interface
- iconic interface
- IDE interface
- infrared interface
- input/output interface
- integrated device electronics interface
- intelligent instrumentation interface
- intelligent interface
- intelligent peripheral interface
- interactive interface
- inter-carrier interface
- Internet server application programming interface
- inter-network interface
- intuitive user interface
- Java naming and directory interface
- JTAG interface
- keyboard interface
- land interface
- layered interface
- license server application programming interface
- local distributed data interface
- local management interface
- logical interface
- man-computer interface
- man-machine interface
- media control interface
- medium dependent interface
- medium independent interface
- memory interface
- message passing interface
- messaging application programming interface
- Mitsumi interface
- mouse interface
- multiple document interface
- musical instrument digital interface
- network application programming interface
- network terminal interface
- network-to-network interface
- object-oriented interface
- open applications interface
- open data-link interface
- open prepress interface
- Panasonic interface
- parallel interface
- peripheral interface
- phantom interface
- physical interface
- planar interface
- plastic interface
- p-n interface
- p-n junction interface
- portable operating system interface
- primary rate interface
- processor interface
- processor-to-cassette interface
- program interface
- programmable communications interface
- programmable interface
- programmable peripheral interface
- radar-computer interface
- remote desktop management interface
- remote user interface
- RGB analog interface
- RGB TTL interface
- RS232 interface
- RS232C interface
- RS-422 interface
- satellite interface
- scalable coherent interface
- SCSA device programming interface
- SCSI parallel interface
- seed-melt interface
- serial communication interface plus
- serial communication interface
- serial interface
- serial peripheral interface
- server-requestor programming interface
- shielded distributed data interface
- slider-disk interface
- small computer system interface
- social user interface
- software interface
- Sony interface
- Sony/Philips digital interface
- speaker voice identification application programming interface
- speech application programming interface
- speech recognition application programming interface
- standard interface
- status control interface
- studio interface
- subscriber line acoustic processing interface
- subscriber-line interface
- superconducting-normal interface
- system interface
- system programming interface
- tape backup drive interface
- tape drive interface
- telephony application programming interface
- telephony server application programming interface
- terminal interface
- transmitter-receiver interface
- twisted-pair distributed data interface
- user interface
- usernetwork interface
- user-to-network interface
- virtual control program interface
- virtual device interface
- visual interface
- WIMP interfaceThe New English-Russian Dictionary of Radio-electronics > interface
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24 Kurtz, Thomas E.
SUBJECT AREA: Electronics and information technology[br]b. USA[br]American mathematician who, with Kemeny developed BASIC, a high-level computer language.[br]Kurtz took his first degree in mathematics at the University of California in Los Angeles (UCLA), where he also gained experience in numerical methods as a result of working in the National Bureau of Standards Institute for Numerical Analysis located on the campus. In 1956 he obtained a PhD in statistics at Princeton, after which he took up a post as an instructor at Dartmouth College in Hanover, New Hampshire. There he found a considerable interest in computing was already in existence, and he was soon acting as the Dartmouth contact with the New England Regional Computer Center at Massachusetts Institute of Technology, an initiative partly supported by IBM. With Kemeny, he learned the Share Assembly Language then in use, but they were concerned about the difficulty of programming computers in assembly language and of teaching it to students and colleagues at Dartmouth. In 1959 the college obtained an LGP-30 computer and Kurtz became the first Director of the Dartmouth Computer Center. However, the small memory (4 k) of this 30-bit machine precluded its use with the recently available high-level language Algol 58. Therefore, with Kemeny, he set about developing a simple language and operating system that would use simple English commands and be easy to learn and use. This they called the Beginners All-purpose Symbolic Instruction Code (BASIC). At the same time they jointly supervised the design and development of a time-sharing system suitable for college use, so that by 1964, when Kurtz became an associate professor of mathematics, they had a fully operational BASIC system; by 1969 a sixth version was already in existence. In 1966 Kurtz left Dartmouth to become a Director of the Kiewit Computer Center, and then, in 1975, he became a Director of the Office of Academic Computing; in 1978 he returned to Dartmouth as Professor of Mathematics. He also served on various national committees.[br]Bibliography1964, with J.G.Kemeny, BASIC Instruction Manual: Dartmouth College (for details of the development of BASIC etc.).1968, with J.G.Kemeny "Dartmouth time-sharing", Science 223.Further ReadingR.L.Wexelblat, 1981, History of Programming Languages, London: Academic Press (a more general view of the development of computer languages).KF -
25 único
adj.1 only, one-time, one, single.2 unique, one-of-a-kind, single, unusual.3 single, azygos, that is not one of a pair.* * *► adjetivo1 (solo) only, sole■ lo único es que... the thing is...2 (extraordinario) unique* * *1. (f. - única)noun2. (f. - única)adj.1) only, single, sole2) unique* * *ADJ1) (=solo) onlyfue el único sobreviviente — he was the sole o only survivor
sistema de partido único — one-party o single-party system
la única dificultad es que... — the only difficulty is that...
es lo único que nos faltaba — iró that's all we needed
2) (=singular) unique¡eres único! solo a ti se te podía ocurrir algo así — you're amazing! only you could think of something like that
* * *I- ca adjetivo1) ( solo) onlylo único que quiero — the only thing I want, all I want
un sistema de partido único — a single-party o one-party system
un acontecimiento único — a once-in-a-lifetime o a unique event
2) ( extraordinario) extraordinaryIIeste hombre es único or es un caso único! — (fam) this guy is something else! (colloq)
- ca masculino, femeninoel único/las únicas que tengo — the only one/ones I have
* * *= all-through, distinctive, only, rare, single, sole, unique, unitary, one-time, single-source, flat, one-of-a-kind, unique unto itself, once in a lifetime.Ex. An all-through system of bibliographic control based on once-only generated short, reasonably accurate and quickly produced records is more appropriate than the present duplicated efforts.Ex. In addition to main or added entries under titles added entries are often also made in respect of distinctive series titles.Ex. Clearly, the only totally adequate indication of the content of a document is the text of the document in its entirety.Ex. In practice critical abstracts are rare, and certainly do not usually feature in published secondary services.Ex. Equally important was the desire to achieve a single text.Ex. Mainframe computers are rarely dedicated to the library's own sole application, unless the library concerned happens to be a national library, offering online access to its data bases to a wide audience.Ex. The basic requirement of a shelf arrangement system is that each document has a unique place in the sequence.Ex. The British unitary system of government impeded local efforts and a spirit of voluntarism.Ex. Appropriate system planning to eliminate 'holes,' segregation of public and administrative networks, programming security 'firewalls,' and assignment of one-time passwords all help in networked computing security.Ex. Discussion centred around the need for a single-source guide to collection management and electronic media.Ex. The company also offers a flat $50 trade-in allowance on major encyclopedias from other publishers.Ex. Join leading experts in cultural heritage informatics for a one-of-a-kind learning experience.Ex. Their problem, Waikart concluded, 'was unique unto itself'.Ex. The article ' Once in a lifetime: a student at Conference' presents a student's view of the Library Association's Centenary Conference, 1977.----* autor personal único = single personal authorship.* cuota única = flat one-time fee.* de una única palabra = single-word.* ejemplar único = singleton.* el único = the one and only.* el único e incomparable = the one and only.* el único e inimitable = the one and only.* el único problema = a fly in the soup, the fly in the ointment.* experiencia única = experience of a lifetime.* hacer único = individualise [individualize, -USA].* hecho para una única ocasión = one shot.* la única pega = the fly in the ointment, a fly in the soup.* mercado único = single market.* Mercado Unico Europeo = Single European Market.* moneda única = single currency.* oportunidad única en la vida = chance of a lifetime.* pago único = one-time purchase, lump sum.* pago único y bien grande = fat lump sum.* postura única = unified voice.* servicio de única ventanilla = one-stop service.* sistema de entrada única = single entry system.* sistema en el que el documento aparece representado en un único lugar del ín = one-place system.* término que representa un único concepto = one concept term.* una única fuente para Algo = one-stop, one-stop shopping, one stop shop.* un centro único = one stop shop.* única fuente = single-source.* * *I- ca adjetivo1) ( solo) onlylo único que quiero — the only thing I want, all I want
un sistema de partido único — a single-party o one-party system
un acontecimiento único — a once-in-a-lifetime o a unique event
2) ( extraordinario) extraordinaryIIeste hombre es único or es un caso único! — (fam) this guy is something else! (colloq)
- ca masculino, femeninoel único/las únicas que tengo — the only one/ones I have
* * *= all-through, distinctive, only, rare, single, sole, unique, unitary, one-time, single-source, flat, one-of-a-kind, unique unto itself, once in a lifetime.Ex: An all-through system of bibliographic control based on once-only generated short, reasonably accurate and quickly produced records is more appropriate than the present duplicated efforts.
Ex: In addition to main or added entries under titles added entries are often also made in respect of distinctive series titles.Ex: Clearly, the only totally adequate indication of the content of a document is the text of the document in its entirety.Ex: In practice critical abstracts are rare, and certainly do not usually feature in published secondary services.Ex: Equally important was the desire to achieve a single text.Ex: Mainframe computers are rarely dedicated to the library's own sole application, unless the library concerned happens to be a national library, offering online access to its data bases to a wide audience.Ex: The basic requirement of a shelf arrangement system is that each document has a unique place in the sequence.Ex: The British unitary system of government impeded local efforts and a spirit of voluntarism.Ex: Appropriate system planning to eliminate 'holes,' segregation of public and administrative networks, programming security 'firewalls,' and assignment of one-time passwords all help in networked computing security.Ex: Discussion centred around the need for a single-source guide to collection management and electronic media.Ex: The company also offers a flat $50 trade-in allowance on major encyclopedias from other publishers.Ex: Join leading experts in cultural heritage informatics for a one-of-a-kind learning experience.Ex: Their problem, Waikart concluded, 'was unique unto itself'.Ex: The article ' Once in a lifetime: a student at Conference' presents a student's view of the Library Association's Centenary Conference, 1977.* autor personal único = single personal authorship.* cuota única = flat one-time fee.* de una única palabra = single-word.* ejemplar único = singleton.* el único = the one and only.* el único e incomparable = the one and only.* el único e inimitable = the one and only.* el único problema = a fly in the soup, the fly in the ointment.* experiencia única = experience of a lifetime.* hacer único = individualise [individualize, -USA].* hecho para una única ocasión = one shot.* la única pega = the fly in the ointment, a fly in the soup.* mercado único = single market.* Mercado Unico Europeo = Single European Market.* moneda única = single currency.* oportunidad única en la vida = chance of a lifetime.* pago único = one-time purchase, lump sum.* pago único y bien grande = fat lump sum.* postura única = unified voice.* servicio de única ventanilla = one-stop service.* sistema de entrada única = single entry system.* sistema en el que el documento aparece representado en un único lugar del ín = one-place system.* término que representa un único concepto = one concept term.* una única fuente para Algo = one-stop, one-stop shopping, one stop shop.* un centro único = one stop shop.* única fuente = single-source.* * *A (solo) onlyes la única solución it's the only solutionel único sobreviviente the sole o only survivorlo único que quiero es … the only thing I want is …, all I want is …¡es lo único que faltaba! that's all we needed!un sistema de partido único a single-party system, a one-party systemsu único hijo their only childsoy hijo único I'm an only childes un ejemplar único it's unique, it's the only one of its kindun acontecimiento único a once-in-a-lifetime o a unique eventB (extraordinario) extraordinaryun actor único an extraordinary actormasculine, feminineonly onees el único que tengo it's the only one I haveel único que no está de acuerdo the only one o the only person who doesn't agreelas únicas que quedaban the only ones (that were) left* * *
único◊ -ca adjetivo
1
¡es lo único que faltaba! that's all we needed!
talla única one size
2 ( extraordinario) extraordinary
■ sustantivo masculino, femenino:◊ el único/las únicas que tengo the only one/ones I have
único,-a adjetivo
1 (exclusivo) only: tengo un único problema, I only have one problem
talla única, one size
2 (fuera de lo común, extraordinario) unique: es una ocasión única, it is a unique opportunity
' único' also found in these entries:
Spanish:
hijo
- ideal
- importar
- monetaria
- monetario
- salvarse
- señera
- señero
- sentida
- sentido
- singular
- singularidad
- sola
- solo
- única
- vicio
- ganar
- limpio
- pretender
- que
English:
all
- fault
- one
- one-way
- only
- single
- sole
- thing
- unique
- vice
- existence
- indulgence
- life
- out
* * *único, -a♦ adj1. [solo] only;[precio, función, moneda] single;es la única forma que conozco de hacerlo it's the only way I know of doing it;la única alternativa posible the only possible alternative;hijo único only child, only son;hija única only child, only daughter;su caso no es único his is not the only case;es lo único que quiero it's all I want;lo único es que… the only thing is (that)…, it's just that…;única y exclusivamente only, exclusivelyúnico propietario sole owner2. [excepcional] unique;una oportunidad única para conocer otros países a unique opportunity to get to know other countries;eres único you're one of a kind♦ pronel único/la única the only one* * *adj1 only;hijo único only child;su único hijo her only son;lo único que … the only thing that …es único it’s unique* * *único, -ca adj1) : only, sole2) : unique, extraordinaryúnico, -ca n: only onelos únicos que vinieron: the only ones who showed up* * *único1 adj1. (solo) only2. (especial) uniqueúnico2 n only one -
26 Artificial Intelligence
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)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)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, EventuallyJust 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 ProgramMany 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)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)[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)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 FormThe 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)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)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)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)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 FormationIt 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)We might distinguish among four kinds of 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.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.... 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)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 ContextsEven 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)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)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 IntelligenceThe 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)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 PropositionsIn 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)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)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)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)Historical dictionary of quotations in cognitive science > Artificial Intelligence
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27 language
1) языка) естественный язык, средство человеческого общенияб) система знаков, жестов или сигналов для передачи или хранения информациив) стильг) речь2) языкознание, лингвистика•- actor language
- agent communication language
- a-hardware programming language - application-oriented language
- applicative language
- a-programming language
- artificial language
- assembler language
- assembly language
- assignment language
- author language
- authoring language - business-oriented programming language
- categorical language - configuration language
- constraint language
- combined programming language
- command language
- common language
- common business-oriented language
- compiled language
- compiler language
- computer language
- computer-dependent language - computer-oriented language
- computer-sensitive language
- concurrent language - context- sensitive language
- conversational language
- coordinate language
- database language
- database query language - data structure language
- digital system design language
- declarative language
- declarative markup language
- definitional language
- definitional constraint language
- design language
- device media control language - dynamically scoped language - elementary formalized language
- embedding language
- event-driven language
- expression language
- extensible language - formalized language - functional language
- functional programming language - graph-oriented language - high-order language
- host language - hypersymbol language
- imperative language
- in-line language
- input language
- intelligent language
- interactive language - interpreted language - Java programming language - lexically scoped language
- list-processing language
- low-level language
- machine language
- machine-independent language
- machine-oriented language
- macro language
- manipulator language - meta language
- mnemonic language
- musical language - native-mode language
- natural language - nonprocedural language
- object language
- object-oriented language - physical language
- picture query language
- portable language
- portable standard language
- polymorphic language - print control language
- problem-oriented language
- problem statement language
- procedural language
- procedure-oriented language
- program language
- programming language
- publishing language
- query language
- question-answering language
- register-transfer language
- regular language
- relational language
- right-associative language
- robot language
- robot-level language
- robotic control language
- rule language
- rule-oriented language
- scientific programming language
- script language
- scripting language - sign language
- single-assignment language
- software command language
- source language
- special-purpose programming language
- specification language - stratified language
- stream language
- string-handling language - strongly-typed language - symbolic language - thing language - tone language
- two-dimensional pictorial query language
- typed language
- typeless language
- unchecked language
- unformalized language
- universal language
- unstratified language
- untyped language
- user-oriented language
- very high-level language - well-structured programming language -
28 language
1) языка) естественный язык, средство человеческого общенияб) система знаков, жестов или сигналов для передачи или хранения информациив) стильг) речь2) языкознание, лингвистика•- a programming language
- abstract machine language
- actor language
- agent communication language
- algebraic logic functional language
- algorithmic language
- amorhic language
- application-oriented language
- applicative language
- artificial language
- assembler language
- assembly language
- assignment language
- author language
- authoring language
- axiomatic architecture description language
- basic combined programming language
- block-structured language
- boundary scan description language
- business-oriented language
- business-oriented programming language
- categorical abstract machine language
- categorical language
- cellular language
- combined programming language
- command language
- common business-oriented language
- common language
- compiled language
- compiler language
- computer hardware description language
- computer language
- computer-dependent language
- computer-independent language
- computer-oriented language
- computer-sensitive language
- concurrent language
- configuration language
- constraint language
- context-free language
- context-sensitive language
- conversational language
- coordinate language
- data definition language
- data description language
- data manipulation language
- data structure language
- database language
- database query language
- declarative language
- declarative markup language
- definitional constraint language
- definitional language
- design language
- device media control language
- digital system design language
- document style semantics and specification language
- domain-specific language
- dynamic hypertext markup language
- dynamic simulation language
- dynamically scoped language
- elementary formalized language
- embedding language
- event-driven language
- expression language
- extensible hypertext markup language
- extensible language
- extensible markup language
- fabricated language
- fifth-generation language
- first-generation language
- formal language
- formalized language
- fourth-generation language
- frame language
- function graph language
- functional language
- functional programming language
- geometrical layout description language
- graphics language
- graph-oriented language
- hardware description language
- Hewlett-Packard graphics language
- Hewlett-Packard printer control language
- high-level language
- high-order language
- host language
- hypersymbol language
- hypertext markup language plus
- hypertext markup language
- imperative language
- in-line language
- input language
- intelligent language
- interactive language
- interactive set language
- intermediate language
- interpreted language
- Java interface definition language
- Java language
- Java programming language
- job control language
- Jules' own version of the international algorithmic language
- knowledge query and manipulation language
- left-associative language
- lexically scoped language
- list-processing language
- low-level language
- machine language
- machine-independent language
- machine-oriented language
- macro language
- manipulator language
- man-machine language
- mathematical markup language
- matrix-based programming language
- meta language
- mnemonic language
- musical language
- my favorite toy language
- native language
- native-mode language
- natural language
- network control language
- network description language
- noninteractive language
- nonprocedural language
- object language
- object-oriented language
- page description language
- parallel object-oriented language
- partial differential equation language
- pattern-matching language
- physical language
- picture query language
- polymorphic language
- portable language
- portable standard language
- practical extraction and report language
- prescriptive language
- print control language
- problem statement language
- problem-oriented language
- procedural language
- procedure-oriented language
- program language
- programming language
- publishing language
- query language
- question-answering language
- register-transfer language
- regular language
- relational language
- right-associative language
- robot language
- robotic control language
- robot-level language
- rule language
- rule-oriented language
- scientific programming language
- script language
- scripting language
- second-generation language
- sense language
- server-parsed hypertext markup language
- set language
- sign language
- simulation language
- single-assignment language
- software command language
- source language
- special-purpose programming language
- specification and assertion language
- specification language
- stack-based language
- standard generalized markup language
- statically scoped language
- stratified language
- stream language
- string-handling language
- string-oriented symbolic language
- string-processing language
- strongly-typed language
- structural design language
- structured query language
- subset language
- symbolic language
- symbolic layout description language
- synchronized multimedia integration language
- target language
- thing language
- third-generation language
- threaded language
- tone language
- two-dimensional pictorial query language
- typed language
- typeless language
- unchecked language
- unformalized language
- universal language
- unstratified language
- untyped language
- user-oriented language
- very high-level language
- very-high-speed integrated circuit hardware description language
- Vienna definition language
- virtual reality modeling language
- visual language
- well-structured programming language
- wireless markup languageThe New English-Russian Dictionary of Radio-electronics > language
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29 Fjalor i shkurtër terminoiogjik i informatikës
AAbort - ndërprerje e operacionit, procesit ose procedures gjatë kryerjes së tij.Accept - pranon.Access time - koha e arritjes së të dhënave.Accessories - veglat ndihmëse në Windows.Adapter - kartelë për zgjerim e cila instalohet në kompjuter.Adress register - numër hemksadecimal i cili e tregon adresën e lokacionit të caktuar të memorjes.Algorithm - zgjidhja e një problemi hap pas hapi.allocate - ndarje të resurseve të kompjuterit, si për shembull në disk, shtypës ose memorje të çdo skedari, shfrytëzuesi ose procesi.alpha numeric characters - shenja alfanu-merike. Të gjitha shenjat që i shfrytëzon kompjuteri, përfshirë këtu edhe shkronjat, shifrat, shenjat për interpunksion dhe shenjat speciale, siç janë: \$, \@ i \#ANSI (American National Standar Institute) - Instituti Nacional Amerikan për Standarde.ASCII ( American Standard Code for Information Interchange) - Kodi amerikan për këmbim të informacioneve. Renditje standarde e shtatë shifrave binare (shifra e shtatë mund të jepet për kontroll të çiftësisë) e cila aplikohet për paraqitjen e shenjave në kompjuter.Animation - animacion - Iluzion i lëvizjes me paraqitje të shpejtë të fotografive të njëpasnjëshme, e cila arrihet me përdorim të harduerit dhe softuerit përkatës. Programet më të njohura për animacion janë: 3 D Studio, Autodesk Chaos, Imagine etj.Application - program i cili është i dedikuar për shfrytëzuesit e rëndomtë, i cili është i projektuar për kryerje të ndonjë pune të caktuar. Për shembull aplikacioni për kontabilitet financiar.Application development tools - vegla për krijim të programeve aplikative.ALU ( Arithmetic-Logic Unit) - njësi aritmetiko-logjike. Është pjesë e njësisë qendrore (çip i mikroprocesorit) e cila kryen operacione kryesore aritmetike dhe logjike me të dhënat.Artificial Intelligence - intelegjencë artificiale. Emër i sistemeve të kompjuterit që duhet të shfaqin inteligjencë njerëzore, si kuptim për fjalën e thënë, si reagim ndaj ambientit të tyre fizik dhe adaptimit ndaj kushteve të tilla.Ascending order - rendi i radhitjes së elementeve sipas rendit të rritjes, prej vlerave më të vogla kah më të mëdhatë (a, b, c...)Assembler - përkthyes programor. Program i projektuar që t'i transformojë instruksionet simbolike në formë më të qëlluar për t'i kryer në kompjuter.Assign - dhënie vlerë diçkaje që është shfrytëzuar në programim.Asterisk - shenja * (yll). Përdoret si shenjë xhoker që mundëson specifikim të disa skedarëve përnjëherë.Auto CAD - program aplikativ për projektim kompjuterik dhe disenjim.BBackbone - niveli më i lartë në një rrjet kierarkik kompjuterik.Backslash - shenja \\ ( ASCII kodi 92). Përdoret në specifikimin e rrugës së diskut ku gjendet skedari i kërkuar.Backspace - zhvendosje e kursorit për një vend prapa.Backup - kopje rezerve. Bëhet kopje e përmbajtjes së diskut të kompjuterit dhe atë në mënyrë periodike, ndërsa vendoset në shirit magnetik ose në CD.Bad sector - sektori jo në rregull. Pjesë e disketës ose diskut ku nuk nuk mund dhe ku nuk është e sigurt të shkruhen informacioneBad trac table - tabelë e shtigjeve që nuk janë në rregull. Listë e pjesëve të çrregulluara fabrikisht dhe të pasigurta për shkruarje, e cila është e ngjitur në pjesën e prapme të diksut.Bandwidth - njësi matëse për sasinë e të dhënave të cilat mund të transmetohen përmes ndonjë rrjeti të komunikimit në një sekondë.Bar chart - diagram në formë të shiritave.Bar code - paraqitje e shenjave alfanu-merike me ndihmën e vijave vertikale me gjatësi të ndryshme. Përdoret si mënyrë për shifrim universal të prodhimeve.Bar code reader - lexues bar cod. Pajisje optike për lexim të shenjave bar cod.BIOS (Basic Input Output System) - grup i programeve më të vogla detyra e të cilave është të shfaqë test rutinor kur kyçet kompjuteri, si dhe ta startojë sistemin operativ të kompjuterit.BASIC - gjuhë programore e cila është e lehtë për mësim.Batch - pako. Bashkësi e elementeve ose dokumeneteve të cilat përpunohen si tërësi.Batch processing - përpunim paketor. Teknikë që përdor vetëm një inkuadrim të programit në memorjen kryesore për shkak të përpunimit të më tepër detyrave të veçanta njëra pas tjetrës.Baud - bod. Kapacitet maksimal për transmetim të informacioneve në një kanal të komunikimit, i cili është njësi matëse e numrit të ndryshimeve të niveleve në sekondë.Benchmark - krahasim. Program standard i cili shërben për përcaktimin e performansave të kompjuterëve të ndryshëm.Beta version - version prove i softuerit para daljes së tij zyrtare në treg.BIT ( Binary digiT) - shifra binare janë 0 dhe 1. Kompjuterët digjital procesojnë informacione në formë digjitale, ndërsa zbatojnë vetëm shifra të sistemit binar. Ato zakonisht paraqiten me tension prej 5 V për numrin 1, gjegjësisht 0 V për numrin O.Binary file - skedar binar i cili përbëhet prej disa bitave, por i cili nuk është skedar tekstual. Zakonisht ato janë programe me fotografi.Binary system - sistem binar. Sistem numërimi për shkruarje të numrave në kompjuter. Aty ka vetëm dy shifra 0 dhe 1.Bps (Bits per second) - bit në sekondë. Masë për shpejtësinë e transmetimit të rrjetave kompjuterikeBlank - i zbrazët, i pashkruar. Shenjë që i përdoret për paraqitjen e vendit të zbrazët ndërmjet shenjave të shtypura.Bold - shkronja me kontura më të trasha dhe më të errëtaBookmark - reference e cila na drejton kah ndonjë dokument i caktuar hipertekstual i Internetit.Boot - startimi i kompjuterit, gjatë së cilës fillon puna e sistemit operativ.Boot block - pjesë e diskut ku gjendet softueri i cili i mundëson kompjuterit ta fillojë punën.Boot disk - disk ose disketë prej së cilës startohet sistemi operativ.Break - ndërpren. Sinjal special i cili e ndërpet punën e ndonjë programi. Shpesh fitohet me shtypje të tasteve Ctrl dhe C përnjëherë.Browser - fletëkërkues. Program i cili është i dedikuar për shikimin e dokumenteve hipertekstuale të Internetit. Me ndihmën e tij shrytëzohet servisi më i dobishëm i Internetit WWW (W orld W ide W eb). Fletëkërkuesit më të njohur janë Microsoft Internet Explorer dhe Netscape Navigator.Buffer - bafer. Vend në kujtesën kryesore të kompjuterit për ruajtje të përkohshme të të dhënave.Bug - gabim, defekt. Gabim i paqëllimtë në program, për shkak të të cilit programi nuk punon si duhet. Në përkthimin më tekstual nënkupton bubë dhe mendohet se rrjedh prej ngjarjes kur mola është kapur për ndonjë relej të kompjuterëve të parë dhe e ka pamundësuar punën e tij.Bullet - shenjë për renditje e cila përdoret në programet për përpunim të tekstit.BBS (Bulletin Board System) - tabelë elektronike për shpallje. Shërbim telekomunikues përmes të të cilit konsumatorët komunikojnë, këmbejnë informata etj.Bus - mbledhëse. E lidh pllakën amë të kompjuterit me procesorin, kujtesën, diskun dhe elementet tjera kompjuterike.Byte - bajt. Tetë bita. Shpesh është numër binar tetëshifror i cili paraqet një shkronjë.CCache - kesh. Pjesë e kujtesën e rezervuar për ruajtje të të dhënave që përdoren shpesh, te të cilat procesori ka qasje shumë më të shpejtë sesa në hard disk. Kujtesën kesh mund të gjendet në memorjen RAM ose në hard disk.Cancel button - tast për shfuqizimin e funksionit të zgjedhur. Te numri më i madh i programeve tasti për shfuqizim aktivizohet me shtypjen e tastit Esc.Case sensitive - dallimi i shkronjave të mëdha dhe të vogla. Me shpesh gjatë krahasimit të dy fjalëve apo teksteve.CRT (cathode ray tube) - gypi katodik i ekranit.CPU (C entral P rocessing U nit) - njësi qendrore e procesuimit. Zemër e kompjuterit personal. Udhëheq dhe drejton me të gjitha operacionet për përpunim të të dhënave.Centronics port - portë e kompjuterit në të cilën shpesh lidhet shtypësi.Chanel - kanal. Rrugë në të cilën transmetohet informacioni digjital në kompjuter.Character - shenjë; karakter. Cilado shkronjë, shenjë e interpunksionit, ose ndonjë nga njëqind shenjat tjera që mund të vërehen në ekran, gjegjësisht të cilat mund të shtypen.CPI (character per inch) - numër i shenjave në një inç. Njësi matëse për matjen e dendësisë së shkrimit. Shprehet me numër të shenjave në një inç.Check box - kuti katrore për dialog e cila mund të jetë e kyçur ose e çkyçur, gjegjësisht të jetë e zgjedhur ose jo, ndonjë opcion në kornizën për dialog.Checksum - shumë për kontroll. Shuma e numrave që përdoren për kontrollim të mbledhjes.Click - klik. Shtypje dhe lëshim i tastit të minakut, pa mos e lëvizur.Client - klient. Sistem i cili mund të punojë i pavarur, edhe pse në një masë edhe ky është i varur prej ndonjë sisitemi tjetër. Për kompjuterin që është i lidhur në rrjet kompjuterik shpesh thuhet se është klient.Client-server network - rrjet i tipit klient-server.Clip art - bashkësi e vizatimeve grafike dhe fotografive të shkruara në skedar të veçantë i cili është i arritshëm për përdorim të ndonjë aplikacioni, për shembull, për përpunim të tekstit ose të grafikës.Clipboard - kohësisht, skladim i fshehur për tekst ose fotografi të cilat priten ose kopjohen.Clock speed - shpejtësi e ores. Shpejtësia e punës së procesorit në kompjuter matet me megahercë (MHz) ose me gigahercë (GHz).Sa më e shpejtë është shpejtësia e procesorit, aq më tepër urdhëra mund të kryejë kompjuteri.Clone - klon. Kompjuter i cili paraqet kopje të suksesshme të kompjuterit tjetër të (standardizuar). Më shpesh kjo u dedikohet atyre kompjuterëve të cilët janë kompatibil me kompjuterët e kompanisë IBM.Cod - kod. Diçka që është shkruar me gjuhën kompjuterike, në letër ose në kompjuter.Code page - faqe e koduar. Tabelë e cila tregon se cili karakter i përgjigjet shenjës në ekran dhe me shtypjen e tasterit a përfitohet e njëjta shenjë.CGA (Color Graphics Adapter) -videokartelë e cila është më e vjetëruar.COM port - portë seriale. Më shpesh në kompjuterët ekzistojnë dy porta seriale të shënuara si C0M1 dhe COM2.Command interperter - program i cili i integron dhe i përpunon urdhërat e dhënë në kompjuter. Në sistemin operativ DOS është programi C0MAND.COM, ndërsa në WINDOWS është WIN.INICOBOL (Common Business Orientated Language) - gjuhë progamore nga gjeneratat më të vjetra të cilat përdoren për aplikacione financiare.Communication protocol - përmbledhje e programeve e cila mundëson transmetim dhe këmbim të të dhënave ndërmjet dy ose më tepër kompjuterëve.CD (Compact Disc) - kompakt disk. Medium për memorim të të dhënave digjitale dhe audio. Në kompakt disk mund të vendoset muzikë prej 72 minutave ose të dhëna prej 650 MB.CD ROM (Comapct Disc Read Only Memory) - njësi harduerike për leximin e kompakt disqeve. Me këtë njësi mund vetëm të lexojmë e jo edhe të shlyejmë ose të regjistrojmë të dhëna të reja.COMPAQ (COMPAtibility Quality) - shenjë e prodhimeve cilësore të kompjuterëve desktop dhe laptop.Compiler - kompajler; përkthyes. Program i cili i përkthen disa gjuhë të larta programesh në ndonjë gjuhë makinerike.CompuServe - njëra ndër rrjetat më të mëdha të Internetit në botë. Klientëve të tyre ju ofron këmbim të skedarëve, të të dhënave, të postës elektronike etj.CAD (Computer Aided Design) - shfrytëzim i kompjuterit për krijime të vizatimeve ose për projektime të ndonjë objekti ose sistemi. Programet më të njohura nga kjo sferë janë Auto Cad, Auto Sketch, Design CAD, Lab View etj.CAM (Computer Aided Manifacture) - prodhim me ndihmën e kompjuterit.CASE (Computer Aided Software Engineering) - vegël softuerike për programerët. Shfrytëzohen për planifikim, analizim si dhe projektim të dokumentacionit në softuerin kompjuterik.Computer analyst - analitik kompjuteristik. Person i cili i definon problemet dhe saktësisht i pëcakton hapat për zgjidhjen e tyre me anë të kompjuterit.Configuration - konfiguracion. Mënyrë e lidhshmërisë së kompjuterit me njësitë tjera periferike në një sistem të përbashkët.Controller - vegël teknike e cila i mundëson veglës tjetër të komunikojë me kompjuterin.Conversion - konverzion. Proces i transformimit të të dhënave (tekst, grafik) nga një format në tjetër.Cooki file - skedar në të cilin ruhen skedarët e shfrytëzuar (cookies). Zakonisht gjendet në emërtuesin bashk me fletëkërkuesin (shembull në emërtuesin Internet Explorer).Corel DRAW- Pako programore e dedikuar për vizatim dhe punim me fotografi.Corrupted file - skedar i dëmtuar. Dëmtimi mund të jetë për shkak të ektorëve të diskut që nuk janë në rregull, prishjes fizike ose gabimeve të shkaktuara nga programi.Crash - gjendje kur kompjuteri bie prej funksionimit të tij dhe më tutje nuk mund të përdoret. Pas kësaj kompjuteri zakonisht përseri startohet.Current drive - disk me të cilin shfrytëzuesi punon momentalisht.Cursor - kursori. Tregues i pozicionimit. Vijë vertikale e lëvizshme që dridhet dhe vezullon e që paraqitet në ekran si indikator vizuel e cila mund të dislokohet edhe vertikalisht edhe horizontalisht me anë të urdhërave prej tastierës.Cyberphobia - kiberfobia. Frikë nga kompjuteri.CRC (Cyclic Redundancy Check) - metodë e testimit për të dhënat dalëse nga disku për shkak të sigurisë prej gabimeve.DData - të dhënat. Nocion i përgjithshëm për numrat, simbolet dhe madhësitë analoge të cilat shfrytëzohen si madhësi dalëse për përpunimin e kompjuterit.Database - baza e të dhënave. Bashkësi e të dhënave të lidhura ndërmjet vete dhe të organizuara paraprakisht. Programet më të njohura për udhëheqjen e bazave të të dhënave janë: Oracle, MS SQL Server, Informix, Sybase etj.Data security - mbrojtje e të dhënave nga ndërhyrjet e qëllimta ose të rastësishme nga njerëz jo të autorizuar.Data type - tip i të dhënave. Mund të jenë: tekstuale, numerike, logjike, dhe të dhëna të datave.Dead lock - ndërprerje; bllokim. Situatë kur ndonjë program nuk mund të realizohet në kompjuter, për shkak se e pret rastin që faktikisht kurrë nuk do të ndodh.Debug - testim i programit të kompjuterit me korrigjim të gabimeve të paraqitura në te.Default value - ndonjë vlerë që nënkuptohet. Vlerë që programi automatikisht e zgjedh po qe se shfrytëzuesi nuk jep ndonjë vlerë tjetër. Për shembull ngjyrat që i jep WIND0WS-i janë default vetëm po qe se shfrytëzuesi nuk i përdor.Defragmentation - defragmentim. Proces i bashkangjitjes i të dhënave të një programi në disk, që të mund të shpejtohet puna e tij. Është e preferueshme që defragmenting të bëhet një herë në javë, për të shpejtuar punën e diskut.Density - dendësi. Njësi matëse për numrin e të dhënave të cilat mund të shkruhen në ndonjë medium (disketë, shirit magnetik etj).Decsending sort - renditje me radhitje të kundërt.Desktop - sipërfaqja aktive e ekranit gjatë punës me Windows, e cila përmban dritare dhe ikona.Desktop computer - kompjuter i cili pozicionohet horizontalisht në tavolinën punës.DTP (Desktop Publishing) - Pako e softuerit me të cilën kompjuteri mund të përdoret për disenj të dokumenteve, duke përfshirë fotografi, tekst dhe kontroll të pamjes së dokumenteve dhe shtypjen e tyre.Destination file - skedar që pranon.Device - vegël, mjet, përbërje, njësi. Nocion i përgjithshëm i cili shfrytëzohet për të identifikuar ndonjë komponentë të kompjuterit (disk, tastaturë, minak, etj).Device driver - softuer i cili i mundëson kompjuterit të komunikojë me njësitë periferike.DAT (Digital Audio Tape) - shirit magnetik në të cilin memorizohen të dhënat me sasi shumë të mëdha.DVD (Digital Video Disk) - teknologji e harduerit e cila mundëson shiqimin e filmave, spoteve muzikore etj.DMA (Direct Memory Access) - proces i transmetimit të një sasie të madhe të të dhënave ndërmjet diskut dhe kujtesës punuese të kompjuterit.DirectX - varg i programeve standarde për aplikacione të Microsfti-t, i dedikuar për lojra dhe aplikacione multimediale.Disk controller - kartelë e cila e lidh kompjuterin me diskun; zakonisht gjendet në pjesën e poshtme të diskut.Disk drive - njësi fizike e cila e pranon dhe e kthen diskun magnetik dhe mundëson lexim dhe shkrim të të dhënave.DOS (Disk Operating System) - njëri ndër sistemet më të njohura operative i cili është shumë përfshirës dhe shfrytëzohet nga kompjuterët personal. I prodhuar nga kompania Microsft në vitin 1982.Domain - grup i kompjuterëve emrat e të cilëve e ndajnë të njëjtën prapashtesë. Shembull: com (firmë komerciale), org (organizatë pa përfitim), gov (qeveri), edu (institucion arsimor), net (provajder i Internetit). Njësoj ekzistojnë edhe prapashtesa të cilat i identifikojnë shtetet p.sh. mk prapashtesë për Maqedoninë.Dpi (dots per inch) - pika në inç. Njësi për matjen e rezolutës së shtypjes në shtypës. Rezoluta te shtypësit amë sillet rreth 300 dpi, ndërsa te shtypësit lezër arrin deri në 1200 dpi.Double click - klikim; shtypje e dyfishtë. Klikim i shpejtë dhe lëshim i tastit të minakut dy here pa lëvizjen e minakut ndërmjet dy klikimeve.Double precision - precizitet i dyfishtë. Teknikë me të cilën paraqiten numrat me gjatësi të dyfishuar.Download - kopjim i ndonjë programi ose skedari prej ndonjë kompjuteri kryesor në kompjuterin personal.Draft quality - kualitet i shtypit, i cili është i lexueshëm, por nuk duket aq mirë për përdorim që ai dokument të botohet në ndonjë revistë ose libër. Zakonisht shfrytëzohet për nxjerrjen e kopjeve që të shkojë në korrekturë.Drag-and-drop - tërheqje dhe lëshim i tastit të minakut.Drop-down meni - Lista e urdhërave të menysë së aktivizuar, të radhitura njëra pas tjetrës.DLL (Dynamic Link Library) - grup e funksioneve të cilat shfrytëzohen gjatë programimit në Windows.EEPROM (E lectrically P rogrammable R ead O nly M emory) - çip memorizues përmbajtja e të cilit nuk mund të ndryshohet.E-mail (electronic mail) - postë elektronike. Njëri nga shërbimet më të njohura të Internetit me të cilin porositë dërgohen prej një kompjuteri në kompjuter tjetër.Embedded object - objekt i ndërvënë.EMM386.EXE - program i cili mundëson vendosjen e drajverave dhe programeve në hapësirën e lartë të memories.Emulator - emulator. Program cili i mundëson kompjuterit të zbatojë programe të shkruara për kompjuter tjetër.Encryption - shifrim. Kodim i porosisë me çka nuk mundësohet hyrje e palejuar deri te ajo.EOF (end of file) - fund i skedarit. Shenjë për fundin e skedarit, e cila shfrytëzohet si indikator se këtu kryhen të dhënat.Ethernet - rrjet lokal kompjuterik i konstruktuar prej llojit të kabllove me mundësi të bartjes deri më 10 Mbit/sec.Event - rast; paraqitje. Moment kur paraqitet ndryshimi specifik i ndonjë gjendjeje.Exchange - këmbim i informatave ndërmjet dy lokacioneve.Exchengeable disk - disk transmetues. Tip i diskut i cili montohet në shtëpizë të posaçme dhe është i transmetueshëm.Executable file - program zbatues. Skedar i cili mund të aplikohet në kompjuter.Expression - shprehje matematikore ose logjike e shkruar në gjuhën programoreEBCDIC (Extended Binary Decimal Interchange Code) - kod i cili i përdorë tetë shifra binare të krijuara nga IBM, ndërsa i paraqet shenjat (shkronjat, numrat etj.) nga kompjuteri i cili i proceson.External modem - modem i jashtëm. Modem në kuti të veçantë, kabllo dhe mbushës i cili më së shpeshti aktivizohet në portën seriale të kompjuterit.Extranet - intranet i cili u është lënë në disponim klientëve dhe blerësve të jashtëm me qëllim që t'i shohin të dhënat. Më shpesh ata janë të siguruara me shifra që të ruhet siguria e blerësve.FFan ventilator - ventilator i cili mundëson cirkulimin e ajrit nëpërmjet pjesëve kompjuterike dhe e pamundëson nxehjen e tyre.Fatal error - gabim në programin kompjuterik i cili e ndalon funksionimin e tij.Fault tolerance - tolerim i gabimeve. Aftësi e ndonjë sisitemi që ta vazhdojë funksionimin normal edhe pse ekziston problem në harduer ose softuer.Fax modem - faks modem. Modem i aftësuar të pranojë dhe të dërgojë fakse. Në këtë rast fakset janë elektronike.Fiber optics - fije optike. Mundëson shpejtësi të madhe të bartjes së të dhënave në rrjetat kompjuterike.File - skedar; fajll; datotekë. Pa marrë parasysh çfarë informate, të grumbulluar dhe të inçizuar nën një emër. Skedari mund të përmban tekst, grafikon, program etj.FAT (File Allocation Table) - tabelë e cila shërben për renditjen e skedarëve e cila gjendet në fillim të diskut dhe përmban informata për ata pjesë të diskut të cilat shfrytëzohen, pjesë të diskut të cilat nuk shfrytëzohen dhe ato të cilat nuk mund të shfrytëzohen për shkak të dëmtimit të blloqeve në disk.File control system - program i cili udhëheq me bartjen e të dhënave nga ciladoqoftë pajisje deri në ndonjë pajisje tjetër.File locking - përmbyllje e skedarit. Ndalesë që më tepër se një shfrytëzues ta ndërrojë përmbajtjen e skedarit.File protection - mbrojtje e skedarit. Komandë e kompjuterit e cila e ndalon shkruarjen dhe fshirjen e të dhënave në skedar, por e lejon leximin e tyre.Firewall - sistem rrjetor për sigurim i cili ndihmon në ndërprerjen e hyrjes së paautorizuar në sistemin kompjuterik; thjesht ky është kompjuter i lidhur në Internet dhe me të cilin zhvillohet i gjith komunikimi në Internet.Floppy disk - disk i butë, disketëFooter - tekst i cili paraqitet në pjesën e poshtme në secilën faqe.FF (Form Feed) - urdhër i cili shfrytëzohet i që ta lëviz letrën në printer në faqe të re. Zakonisht në tabelën kontrolluese të printerit gjendet një tast i cili mundëson kryerjen e funksionit përkatës.FORTRAN (FORmula TRANslation) - gjuhë programore e krijuar në kompaninë IBM e cila shfrytëzohej për programimin e aplikacioneve tekniko shkencore.Freeware - programe pa pagesë, por të mbrojtura me ligj për autorizimFAQ (Frequently Asked Question) - pyetje ose lista me pyetje dhe përgjigje të cilat janë shumë të shpeshta dhe shumë shfrytëzues ballafaqohen me këto të dhëna. Këto lista janë shumë frytdhënëse për shkak të këmbimit të informatave.GGIGO (Garbage In, Garbage Out) - princip në të cilën po qe se hyjnë të dhëna jokor-rekte dhe jovalide në kompjuter, ai do të japë rezultate jokorrekte dhe të pakuptimta.GUI (graphical user interface) - interfejs grafik i shfrytëzuar për sisteme operative. Komunikimi ndërmjet shfrytëzuesit dhe programit zhviliohet me anë të shfrytëzimit të ikonave, dritareve dhe të ngjashme. Një shembull për një iterfejs të tillë që e shfrytëzojmë është Windows-i.Guru - Njeri me kapacitet të lartë i cili dëshiron t'u ndihmojë të tjerëve në zgjedhjen e problemeve të tyre.HHacker - haker. Person për të cilin kompjuteri është hobi. Sot shumë njerëz termin haker e identifikojnë me person i cili në mënyrë të paligjshme hy në kompjuter të huaj.Halt - ndalesë. Ndalje e realizimit të operacioneve të renditura në programet kompjuterike.Hand-held computer - kompjuter i vogël që mund të mbahet edhe në dorë.Hang - rri varur. Mosfunksionim i kompjuterit. Kur kompjuteri rinë varur, i ekrani duket normal, por çfarëdo pune tjetër është e pamundur të futet në funksion.Hard copy - rezultatet e shtypura në letër.Hardware - hardueri, gjërat fizike apo të prekshme të kompjuterit.Help - ndihmë. Funksion i cili është i pranishëm në shumë programe, i cili shërben si ndihmë e shfrytëzuesit për përdorimin e programit.Hertz (Hz) - herc. Cikël në sekondë me të cilin matet shpejtësia e procesorit në kompjuter.HEX (Hexadecimal) - Sisitem numëror në matematik, në të cilin si bazë e numërimit është numri 16. Për shfaqjen e numrave përdoren shifrat 0-9 dhe shkronjat A-F. Është shumë i qëlluar për përdorimin e kalkulimeve kompjuterike.Hidden file - skedar i fshehur. Skedar i cili përmban atribute të cilat nuk lejojnë që emri i skedarit të kopjohet, të fshihet ose të shfletohet.High tech - teknologji e lartëHost computer - kompjuter kryesor me të cilin lidhen kompjuterët tjerë.Hot key - tast ose kombinim i tasteve i cili zbaton instruksion të përcaktuar pa marrë parasysh se çka punon procesori në momentin e dhënë.HTML (Hyper Text Markup Language) - format hipertekstual për punë me dokumente. Shërben për krijimin e dokumenteve WEB në internet.Hub - hab. Paisje në të cilën kyçen kompjuterët të cilët janë të lidhur në rrjet.Hyphenation - ndarje e fjalëveIIllegal - jolegal. Parametra hyrëse të cilët janë të papranuara, për shkak se nuk i përmbushin specifikacionet e vendosura në programe.Image processing - përpunim i grafikonëveImaging - proces i shkrimit të grafikës në ndonjë medium, për shembull në shirit.Implementation - implementim. Instalim i sitemit kompjuterik.Infrared - teknologji e cila shfrytëzon ndriçimin për lidhjen të kompjuterëve pa kabëll.Initialization - inicializim. Operacion për formatim të diskut ose disketës, si dhe përgatitje për shkruarjen dhe përdorimin e të dhënave.Ink-jet printer - shtypës pështyes që hedh ngjyrën në letër.Input data - të dhënat hyrëse.Insert mod - rregull për futjen e të dhënave.Install - instalim, futja fillestare e ndonjë programi në kompjuter.Instruction - instruksion. Urdhër i destinuar për mikroprocesorin.Integer - numër i plotë pa presje decimaleLLine printer - shtypës i cili shtyp përnjëherë një rresht tekst.Link- lidhje; lidhshmëri.Load - mbushje, futje e programit në memorje.LAN (Local Area Network) - rrjet lokal në kuadër të një hapësire ose ndërtese. Lidhje e dy ose më tepër kompjuterëve me kabllo me qëllim të këmbimit të informatave.Local printer - shtypës i cili është i lidhur drejtpërdrejt me një stacion punues, i cili nuk është në disponim të shfrytëzuesve tjerë të rrjetit.Login - Paraqitje në kompjuter. Në këtë rast kompjuteri kërkon nga shfrytëzuesi që të identifikohet me emrin dhe shifrën.Logoff- çlajmërim. Largim nga puna me kompjuter.Loop - cikël. Renditje të instruksioneve kompjuterike të cilat praktikohen me anë të përsëritjeve, gjersa nuk përmbushet ndonjë kusht.MMachine code - kod makine. Përmbledhje e instruksioneve kompjuterike në ndonjë kompjuter të posaçëm i cili niund ta kryejë urdhërin.Macro - makro. Serial i urdhërave të cilat kryhen me shtypjen e një tasti ose me ndonjë urdhër. Në të shumtën e rasteve i shkruan vetë shfrytëzuesi për ta lehtësuar punën gjatë përsëritjeve të një morie urdhërash.Mailbox - sandëku postar.Main program - pjesë kryesore e programit e cila i kontrollon nënprogramet.Mass storage - pajisje në të cilën mund të vendoset një numër i madh i të dhënave.Medium - medium. Bartës i të dhënave, shpesh mendohet në disketë, CD-ROM dhe të ngjashme.MMU (Memory Management Unit) - pajisje e cila udhëheq kujtesën.Merge - bashkim, kombinim i dy ose më tepër skedarëve.Message - porosi nga kompjuteri e cila informon për diçka.MIDI file - skedarë me përshkrime muzikore.MIPS (Million Instruction Per Second) -milion instuksione në sekondë. Njësi matëse për shpejtësinë me të cilën procesori i kryen instruksionet. Për shembull, procesori Pentium i cili punon në 100 MHz kryen 100 milionë instruksione në sekondë, pra 100 MIPS-a.Millisecond (ms) - milisekondë. Kohë e barabartë me pjesën e njëmijtë të sekondës. Shfrytëzohet për shprehjen e shpejtësisë te hard disqet.Mode - regjim i punës; mënyrë e punës. Njëra nga gjendjet alternative të punës së kompjuterit.MODEM (MOdulator/DEModulator) - modem. Regullator i cili të dhënat e dërguara i shndërron në sinjal telefonik, të qëlluara për lidhje të drejtpërdrejtë telefonike.Motherboard - pllaka amë e kompjuterit në të cilën janë të lidhura të gjitha elementet e harduerit.Multimedia - kombinim i tekstit me fotografi dhe zë, videoanimacion.MIME (Multipurpose Internet Mail Extensions) - standard për bashkangjitjen e skedarëve në porositë elektronike.Multitasking - aftësi e sistemit operativ që njëkohësisht të ushtrojë më shumë programe.NNetwork - rrjet i kompjuterit.NetWare - sistem operativ rrjetor i shpikur nga kompania Novell.Network adapter - adapter i rrjetit. Kartelë e cila instalohet në kompjuter përmes të cilës ai lidhet në rrjet.Network administrator - njeriu i cili e mbikëqyrë punën e rrjetit kompjuterik dhe që udhëheqë me të.Network protocol - protokoll rrjetor. Bashkësi e standardeve kompjuterike në një rrjet.Node - nyje, pika ngjitëse në rrjein kompjuterikNon-interlaced - sa i përket disa monitorëve te të cilët topi elektronik pas një kohe e kalon ekranin pa mos lëshuar asnjë vijë.Notebook computer - kompjuter i vogël me format sa një faqe e letrës.Numeric keypad - tastierë numerike.OOLE (Object Linking and Embedding) -mënyrë e këmbimit të informatave ndërmjet dy skedarëve me aplikim të njëjtë ose të ndryshëm në Windows.Off-line - i çkyçurOn-line - i kyçurODBC (Open Data Base Connectivity) - standard i cili mundëson hyrje në sisteme të ndryshme të bazave të të dhënave.Operating System - sistem operativ. Softuer i cili është lidhje ndërmjet shfrytëzuesit dhe kompjuterit.Optical cable - kabëll optik për lidhje rrjetore të kompjuterëve me të cilin arihet shpejtësi e madhe në përcjelljen e të dhënave.OCR (Optical Character Recognition) - njohje e simboleve optike. Program i cili identifikon shenjat e shkruara dhe ato të shtypura dhe pastaj krijon skedar tekstual.OEM (Original Equipment Manifacturer) - prodhues i komponenteve të ndryshëm, të cilët pastaj lidhen me klientin, e emri i tij figuron në kompjuter.Overflow - tejkalim. Gjendje e cila paraqitet si rezultat i operacionit aritmetik; e tejkalon kapacitetin e kujtesës për ruajtjen e rezultatit.Overload - ngarkim i tepërt. Ngarkim më i j madh sesa pajisja; mund ta mban atë për të cilën është konstruktuar.Overstrike - nënvizim.Overtype - shkrim përmbi tekst.Overwrite - mbulim i informatës e cila më parë ka qenë në atë vend.PPage break - ndërprerje e faqes. Vend ku mbaron një faqe dhe fillon faqja tjetër.Page layout - pamje e faqesPpm (pages per minute) - faqe në minute. Njësi matëse e shpejtësisë së shtypësit gjatë shtypjes.Pagination - operacion automatik te programet për përpunimin e tekstit, i cili shërben për renditjen e tekstit nëpër faqe me numerimin e tyre.Palmtop computer - kompjuter i vogël i cili mund të mbahet në një dorë.PASCAL - Paskali. Gjuhë kompjuterike.Password - Fjalë e fshehur e cila përdoret për hyrje në sistemin kompjuterik.Patch - arnim. Ndryshim i kodit programor, i cili zakonisht bëhet pas mbarimit të softuerit me qëllim që të përmirësohen disa gabime.Path name - emri i datotekës së bashku me rrugën me të cilën arihet deti tek ajo.Pause - pauzë. Tast ose urdhër i cili përkohësisht e ndërpren punën e ndonjë programi.Peer-to-peer - rrjet lokal ku çdo kompjuter i kyçur është i barabartë. Në rrjet nuk ekziston server.Peripheral device - pajisje e harduerit e cila kyçet në kompjuter.Permanent SWAP file - skedar i përhershëm në Windows me të cilin shtresohen të dhënat dhe instruksionet programore kur nuk mund të vendosen në kujtesën RAM.PCMCIA (Personal Computer Memory Card International Association) - komitet i cili krijoj standarde për memorje me kapacitet më të madh e aplikuar te kompjuterët laptop.PIXEL (Picture Element) - Element më i vogël i monitorit kompjuterik i cili mundë të kontroliohet. Sa më i madh të jetë numri i pikselave, aq më e mirë është rezoluta.Pirate - person i cili merret me formën ilegale të kopjimit të softuerave.Plasma display - teknologji e përdorur për konstruimin e ekranit te kompjuterët laptop.Plotter - vizatues. Pajisje e cila shërben për vizatimin e rezultateve të përfituara nga kompjuteri.Plug and play - kyçe dhe puno. Pajisje të cilat kompjuteri automatikisht i detekton dhe i instalon drajverat e nevojshëm në të.Pointer - tregues. Fotografi e vogël në ekran, zakonisht në formë të shigjetës; lëvizjet e saja kontrollohen nëpërmjet minakut.Port - portë; lidhje; hyrje.Portability - përcjellshmëri. Cilësi e programave kompjuterike që të mund të adaptohen në lloj-lloj tipash të kompjuterëve.Power supply - furnizues i rrymes te kompjuteri.Print queue - pritje, rend për shtyp.Print server - zakonisht njëri prej kompjuterëve në rrjet i cili dirigjon me të gjitha kërkesat për shtyp dhe me të gjithë shtypësit që janë të lidhura në rrjet.Printer driver - softuer i cili i mundëson kompjuterit që të punojë me shtypësin.Procedure - rradhitje e instruksioneve kompjuterike të cilat bashkarisht veprojnë për një nevojë dhe detyrë të caktuar.Processing - përpunim i të dhënave.Programming language - gjuhë programore me të cilën programeri e shkruan programin kompjuterik.Prompt - shenjë për thirrje; shërben për shkruarjen e urdhërave.Purge - shlyerje pas së cilës të dhënat e shlyera nuk mund të kthehen më.QQuery - pyetje. Instruksion kompjuterik i cili i parashtron pyejte bazës së të dhënave.Quit - ndalje. Urdhër me të cilën para kohe ndalet ekzekutimi i programit.QWERTY - tastier në të cilën rreshti më i lartë i saj fillon me shkronjat Q, W, E, R, T, Y. Ekzistojnë edhe lloje tjera të tastierëve si per shembull QWERTZ.RRadio button - radio sustë. Mund të zgjedhim vetëm një sustë të këtij lloji në program.RAM (Random Access Memory) - kujtesa kryesore kompjuterike në të cilën janë të vendosura të dhënat të cilat përpunohen.Read-only - vetëm lexim. Të dhënat mund të lexohen, por jo edhe të ndryshohen.ROM (Read Only Memory) - kujtesa e pashlyeshme nga e cila mund të lexohen të dhënat.RTC (Real Time Clock) - Çip kompjuterik i cili ka funksion të orës që ta informojë kompjuterin për kohën e saktë, datën dhe vitin.Reboot - përsëri startim të kompjuterit, zakonisht për shkak të rënies së sistemit.Record - grup i të dhënave të cilat i takojnë një grupacioni. Për shembull, emri i ndonjërit, mbiemri, adresa dhe numri i telefonit.Recover - kthim në gjendjen normale të punës pas paraqitjes së gabimit në sistem.RAID (Redundant Array of Inexpensive Drives) - kombinim i më shumë disqeve me qëllim që të rritet siguria e të dhënave nga ndonjë humbje e paparashikuar.Refresh rate - shpejtësi për freski. Numër maksimal i fotografive që mund të shfaqen në ndonjë monitor për një sekondë. Paraqitet me herc.RDBMS (Relational Data Base Management System) - sistem për udhëheqjen e bazave të të dhënave.Remote computer - kompjuter i larguar.Remote control program - program me komandim prej së largu.Repeat delay - koha e nevojshme që të shtypet një tast e që të paraqitet karakteri i cli përgatitet që të dale në ekran.Reset button - sustë për resetim. Sustë në pjesën e përparme të shtëpizës së kompjuterit e cila shërben për vënien e sistemit në gjendjen fillestare të saj.Resolution - qartësi e përshkruarjes në ekran apo në shtypës.Response time - kohë për përgjigje nga ana e kompjuterit për ndonjë kërkesë përkatëse.Restart - startim i përsëritur i kompjuterit.Retreive - gjetje dhe ndarje në veçanti e ndonjë informate të përcaktuar.Retry - orvatje e sërishme për të kryer ndonjë instruksion të programit.Ring network - rrjet unazor.RJ-45 - konektor i cili i ngjan lidhjes telefonike, por ka 8 tela në vend që të ketë 4.Root directory - direktoriumi kryesor i një disku.Router - udhërëfyes. Pajisje rrjetore e cila i dërgon të dhënat në rrjet duke e zgjedhur rrugën më të mirë.SSafe mode - gjendje në të cilën startohet Windows-i kur paraqitet ndonjë konflikt në harduer.Save - shkrim i të dhënave në disk, ku nuk mund të humben pas mbylljes së kompjuterit.Scanner - skener. Mjet i cili në mënyrë optike lexon ndonjë dokument dhe e shndërron në skedar grafiko-digjital.Screen - ekran.Scroll - lëvizje e tekstit lart-poshtë.Search engine - program për kërkimin e të dhënave. Makina më të njohura për kërkim në internet janë: Yahoo, Altavista, Google etj.Server - kompjuter në rrjet i cili disa nga resurset e veta i vë në disponim të ndonjë kompjuteri tjetër.Session - koha në të cilën një shfrytëzues e kalon në rrjet.Set up - një sistem të vihet në gjendje pune.Shared file - skedar i përbashkët.Shut down - kryerje e punës së një sistemi operativ të kompjuterit ose çkyçje e kompjuterit.SMTP (Simple Mail Transfer Protocol) - protokoll i cili shfrytëzohet për udhëheqjen e këmbimit të postës elektronike ndërmjet dy kompjuterëve.Slave - i nënshtruar. Kompjuter i cili është i kontrolluar nga një kompjuter tjetër.Software - të gjitha programet të cilat mund të shfrytëzohen në një kompjuter.Software development tool - vegla për zhvillimin e programeve.Sort - renditje e të dhënave me radhitje të re.Sound card - kartë për zërim.Storage - kujtesë.String - varg i shenjave.SQL (Structured Query Language) - pako e programeve për udhëheqjen e bazave të të dhënave.Switch - ndërprerës.System software - softuer sistemor (p.sh. MS-DOS, Windows etj).English-Albanian dictionary > Fjalor i shkurtër terminoiogjik i informatikës
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30 unit
1) сборочная единица; узел; блок2) установка; агрегат3) единица, единица измерения || единичный; удельный4) часть; секция || секционный•as a unit — 1) в сборе 2) как единая сборочная единица; как единый узел
unit under test — 1) объект контроля 2) объект диагностирования, объект технического диагностирования
- AC unit- actuating unit
- adapter plate unit
- adaptive control unit
- address and data interface unit
- address unit
- adjusting unit
- air-aspirating unit
- answer-back unit
- arithmetic unit
- arithmetic/logic unit
- arithmetical unit
- ASC unit
- assembly unit of N-order
- assembly unit
- audio response unit
- autoloading unit
- automatic calling unit
- auxiliary data translator unit
- availability control unit
- axis unit
- axis-processing unit
- balancer unit
- banking unit
- bar feed unit
- base assembly unit
- base unit
- basic information unit
- basic length unit
- basic logic unit
- batch control unit
- bearing unit
- behind-the-tape reader unit
- belt shuttle unit
- belt-driven shuttle unit
- bench-testing unit
- blemished unit
- bolt-on unit
- booster unit
- boring spindle unit
- boring unit
- boring-and-milling unit
- brake unit
- broach retriever unit
- broach-handling unit
- broken tool sensing unit
- buffer unit
- building-block machining unit
- bulk transfer unit
- business unit
- card punching unit
- carousel loading unit
- carousel unit
- carrier unit
- cartridge unit
- cellular unit
- center unit for machine frame
- central processing unit
- central processor unit
- chain storage unit
- changer unit
- changing unit
- check unit
- chiller unit
- chip disposal unit
- clamping unit
- claw unit
- CNC machining unit
- CNC standard unit
- CNC unit
- coating application unit
- coating removal unit
- coherent unit
- column unit
- combination valve unit
- command unit
- communications central processing unit
- complementary unit
- computerized numerical control unit
- condensing unit
- cone variable-speed friction drive unit
- console unit
- constant coefficient unit
- constant delay unit
- construction unit
- control unit
- controlling unit
- conveying unit
- conveyor unit
- coolant management unit
- coolant recovery unit
- coolant unit
- cooler unit
- cooling unit
- coordinate preprogramming unit
- copying unit
- correction unit
- cover unit
- CPC handling unit
- cross tapping unit
- cross-slide unit
- cutoff unit
- cutting unit
- D unit
- damping unit
- data preparation unit
- data transmission control unit
- deep hole boring unit
- delay unit
- derived unit
- detecting unit
- detection unit
- developing unit
- digital display unit
- digital readout unit
- digital unit
- dimension readout unit
- diode array unit
- disk-type variable-speed friction drive unit
- displacement unit
- display unit
- distance-keeping unit
- double-acting unit
- double-notching unit
- double-pump and combination unit
- double-pump unit
- double-reduction gear unit
- double-reduction right-angle reduction gear unit
- double-reduction twin gear unit
- double-reduction twin unit
- double-reduction wormgear unit
- double-spindle unit
- down-hole internal deburrer unit
- dresser unit
- dressing unit
- drill unit
- drilling and milling unit
- drilling spindle unit
- drilling unit
- drilling/tapping unit
- drive unit
- drive/feed unit
- DRO unit
- dual work pallet shuttle unit
- dual-head laser beam unit
- dust-collecting unit
- dust-removing unit
- dynamic unit
- EDM unit
- electrical machining units
- electromagnetic unit
- electron-beam unit
- entry level dedicated unit
- environmental compensation unit
- exchanger unit
- fabricated unit
- facing unit
- fan coil unit
- feed box unit
- feed change unit
- feed drive cartridge unit
- feed unit
- feedback unit
- feed-in boring unit
- feed-out boring unit
- fetch-and-carry unit
- filtration unit
- fine boring unit
- flexible spindle units
- flexible tray unit
- floor unit
- focusing unit
- free-standing unit
- free-wheel unit
- free-wheeling unit
- frontal variable-speed friction drive unit
- functional unit
- fundamental unit
- gage control unit
- gage indicating unit
- gage unit
- gaging unit
- gas turbine starter auxiliary power unit
- gear unit
- gearbox unit
- gear-reversing unit
- grasping unit
- grinding spindle unit
- gripper unit
- guide unit
- handling unit
- hardware/software add-on unit
- harmonic drive unit
- head unit
- headstock-type workpiece holding unit
- hoisting unit
- horizontal power unit
- horizontal way unit
- hydraulic clamping unit
- hydraulic feed unit
- hydraulic power unit
- hydraulic testing unit
- hydraulic unit
- hydrostatic bearing unit
- ICAM manufacturing unit
- ICAM unit
- icon-driven control unit
- indexer/fourth axis unit
- indexing head unit
- indexing platen unit
- indexing table unit
- indexing unit
- in-die tapping unit
- information retrieval unit
- information unit
- input batch control unit
- input unit
- input-output unit
- in-system unit
- integral unit
- interface unit
- intermediate storage unit
- interpolating unit
- inverting unit
- keyboard unit
- knee-type unit
- lapping and superfinishing unit
- laser beam composition unit
- laser beam unit
- laser processing unit
- laser unit
- laser-calibration unit
- laser-source unit
- lead screw tap unit
- lexical unit
- lift unit
- lift-and-carry unit
- light unit
- linear ball bearing unit
- linear drive unit
- linear screw unit
- linear slide roller bearing unit
- linear unit
- live storage unit
- load/unload unit
- loading unit
- loading-and-unloading unit
- logic unit
- logical unit
- lubricating pump unit
- machine control unit
- machine tool control unit
- machine tooling unit
- machine unit
- machine-dedicated unit
- machining center unit
- machining head unit
- machining unit
- magnetic pickup unit
- magnetic tape unit
- manned flexible unit
- marking unit
- master unit
- material-handling unit
- MDI unit
- measurement unit
- measuring unit
- memory unit
- message display unit
- microdispensing unit
- microprocessor correction unit
- microprocessor NC unit
- microprocessor unit
- microprocessor-based unit
- microprocessor-type NC unit
- middle-level 3-D representation unit
- milling spindle unit
- minicomputer control unit
- miniload AS/RS unit
- mist coolant unit
- miter saw unit
- mobile unit
- mobile work storage unit
- modular cell unit
- modular loading unit
- modular unit
- motor unit
- motor-reduction unit
- multichannel analyzer unit
- multidrill unit
- multiple screw-driving unit
- multiple-power path gear unit
- multiple-reduction gear unit
- multiple-reduction unit
- multiple-spindle torque unit
- multipurpose machining unit
- multispindle boring unit
- multitap unit
- NC data creation unit
- NC unit
- nested gear unit
- notching unit
- nutating unit
- off-machine unit
- off-system unit
- oil coalescer unit
- oil-filled feed unit
- one stage gear unit
- one stage unit
- on-machine unit
- operation unit
- operational unit
- operator-friendly program unit
- orientation transfer unit
- output batch control unit
- output unit
- overhead gantry unit
- overhead spindle unit
- pack unit
- pallet change unit
- pallet exchange unit
- pallet shuttle unit
- pallet-pool unit
- parallel-shaft reduction gear unit
- PC expansion board unit
- PC-based CAD unit
- pendant control unit
- pendant pushbutton control unit
- pendant unit
- peripheral control unit
- peripheral processing unit
- photo-eye tracing unit
- pick-and-place unit
- pickup unit
- piece-holding unit
- pilot unit
- placement unit
- planetary gear unit
- planetary reduction gearing unit
- plant unit
- plasma-arc unit
- plasmarc unit
- platen unit
- PLC unit
- plugboard input unit
- plugboard unit
- plug-in unit
- pneumatic unit
- portable unit
- power feed unit
- power supply unit
- power train unit
- power unit
- power-generating unit
- power-tooling unit
- practical correction unit
- practical unit
- presetting unit
- pressurized air bearing unit
- primary storage unit
- probe unit
- processing unit
- production unit
- program unit
- programming unit
- propulsion unit
- pulling unit
- pump unit
- pumping unit
- pump-motor unit
- quill feed cam unit
- quill spindle unit
- quill unit
- raster unit
- readout unit
- reducing unit
- reduction gear unit
- reduction gearing unit
- reduction unit
- reed make contact unit
- regulating unit
- remote display unit
- replacement unit
- retriever unit
- right-angle milling unit
- right-angled milling unit
- robot power unit
- robot unit
- robot-transfer unit
- roller bearing unit
- roller unit
- roller-marking unit
- rotary unit
- rotating seal unit
- S unit
- scanning unit
- scheduling unit
- screen projection unit
- screwing unit
- sealed reed contact unit
- self-contained NC unit
- self-contained unit
- sensing unit
- sensor unit
- servo unit
- shankless boring unit
- sheet metal stamping automatic unit
- shop replaceable unit
- shuttle unit
- shuttle-and-lift unit
- side unit
- single-acting unit
- single-light unit
- single-reduction gear unit
- single-reduction unit
- sizing unit
- slant bed unit
- slave unit
- slide unit
- sliding table unit
- smallest replaceable unit
- spare unit
- speeder unit
- speed-increase unit
- speed-up spindle unit
- speed-up unit
- spindle box unit
- spindle cartridge unit
- spindle drive unit
- spindle unit
- stabilizing unit
- stand-alone unit
- standard build units
- starter auxiliary power unit
- static tooling unit
- steam generating unit
- stock feed unit
- storage unit
- stylus unit
- sub-multiple unit
- swing arm-mounted control unit
- tangent unit
- tapping unit
- teach control unit
- terminal control unit
- test unit
- testing unit
- thermal detecting unit
- tilting unit
- tolerance unit
- tool storage unit
- tool-presetting unit
- tool-spindle unit
- toroidal variable-speed friction drive unit
- track and store unit
- transfer unit
- transmission control unit
- transmission unit
- transmitter/receiver unit
- transport unit
- triple-reduction gear unit
- triple-reduction unit
- tuning unit
- turnaround unit
- turning spindle unit
- turnround unit
- turret unit
- twin gear unit
- twin saw unit
- twin-drive unit
- twin-screen unit
- unit of displacement
- unit of measure
- unit of measurement
- unit of physical quantity
- unit of product
- unit of work per unit of time
- unmanned machining unit
- vacuum unit
- variable coefficient unit
- variable delay unit
- variable preload bearing unit
- variable ratio unit
- variable speed unit
- variable-speed friction drive unit
- V-axis grinding unit
- V-belt variable-speed drive unit
- V-drive unit
- vertical way unit
- vibratory feed unit
- vise unit
- visual display unit
- vocal output unit
- VTL unit
- waveform gear reduction unit
- wheel-dressing unit
- wheel-head unit
- wing unit
- wing-base unit
- work storage unit
- work-holding headstock unit
- workshop video unit
- work-testing unit
- worm reduction unit
- writing unit
- yet-to-be-assembled unitEnglish-Russian dictionary of mechanical engineering and automation > unit
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31 Language
Philosophy is written in that great book, the universe, which is always open, right before our eyes. But one cannot understand this book without first learning to understand the language and to know the characters in which it is written. It is written in the language of mathematics, and the characters are triangles, circles, and other figures. Without these, one cannot understand a single word of it, and just wanders in a dark labyrinth. (Galileo, 1990, p. 232)It never happens that it [a nonhuman animal] arranges its speech in various ways in order to reply appropriately to everything that may be said in its presence, as even the lowest type of man can do. (Descartes, 1970a, p. 116)It is a very remarkable fact that there are none so depraved and stupid, without even excepting idiots, that they cannot arrange different words together, forming of them a statement by which they make known their thoughts; while, on the other hand, there is no other animal, however perfect and fortunately circumstanced it may be, which can do the same. (Descartes, 1967, p. 116)Human beings do not live in the object world alone, nor alone in the world of social activity as ordinarily understood, but are very much at the mercy of the particular language which has become the medium of expression for their society. It is quite an illusion to imagine that one adjusts to reality essentially without the use of language and that language is merely an incidental means of solving specific problems of communication or reflection. The fact of the matter is that the "real world" is to a large extent unconsciously built on the language habits of the group.... We see and hear and otherwise experience very largely as we do because the language habits of our community predispose certain choices of interpretation. (Sapir, 1921, p. 75)It powerfully conditions all our thinking about social problems and processes.... No two languages are ever sufficiently similar to be considered as representing the same social reality. The worlds in which different societies live are distinct worlds, not merely the same worlds with different labels attached. (Sapir, 1985, p. 162)[A list of language games, not meant to be exhaustive:]Giving orders, and obeying them- Describing the appearance of an object, or giving its measurements- Constructing an object from a description (a drawing)Reporting an eventSpeculating about an eventForming and testing a hypothesisPresenting the results of an experiment in tables and diagramsMaking up a story; and reading itPlay actingSinging catchesGuessing riddlesMaking a joke; and telling itSolving a problem in practical arithmeticTranslating from one language into anotherLANGUAGE Asking, thanking, cursing, greeting, and praying-. (Wittgenstein, 1953, Pt. I, No. 23, pp. 11 e-12 e)We dissect nature along lines laid down by our native languages.... The world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... No individual is free to describe nature with absolute impartiality but is constrained to certain modes of interpretation even while he thinks himself most free. (Whorf, 1956, pp. 153, 213-214)We dissect nature along the lines laid down by our native languages.The categories and types that we isolate from the world of phenomena we do not find there because they stare every observer in the face; on the contrary, the world is presented in a kaleidoscopic flux of impressions which has to be organized by our minds-and this means largely by the linguistic systems in our minds.... We are thus introduced to a new principle of relativity, which holds that all observers are not led by the same physical evidence to the same picture of the universe, unless their linguistic backgrounds are similar or can in some way be calibrated. (Whorf, 1956, pp. 213-214)9) The Forms of a Person's Thoughts Are Controlled by Unperceived Patterns of His Own LanguageThe forms of a person's thoughts are controlled by inexorable laws of pattern of which he is unconscious. These patterns are the unperceived intricate systematizations of his own language-shown readily enough by a candid comparison and contrast with other languages, especially those of a different linguistic family. (Whorf, 1956, p. 252)It has come to be commonly held that many utterances which look like statements are either not intended at all, or only intended in part, to record or impart straightforward information about the facts.... Many traditional philosophical perplexities have arisen through a mistake-the mistake of taking as straightforward statements of fact utterances which are either (in interesting non-grammatical ways) nonsensical or else intended as something quite different. (Austin, 1962, pp. 2-3)In general, one might define a complex of semantic components connected by logical constants as a concept. The dictionary of a language is then a system of concepts in which a phonological form and certain syntactic and morphological characteristics are assigned to each concept. This system of concepts is structured by several types of relations. It is supplemented, furthermore, by redundancy or implicational rules..., representing general properties of the whole system of concepts.... At least a relevant part of these general rules is not bound to particular languages, but represents presumably universal structures of natural languages. They are not learned, but are rather a part of the human ability to acquire an arbitrary natural language. (Bierwisch, 1970, pp. 171-172)In studying the evolution of mind, we cannot guess to what extent there are physically possible alternatives to, say, transformational generative grammar, for an organism meeting certain other physical conditions characteristic of humans. Conceivably, there are none-or very few-in which case talk about evolution of the language capacity is beside the point. (Chomsky, 1972, p. 98)[It is] truth value rather than syntactic well-formedness that chiefly governs explicit verbal reinforcement by parents-which renders mildly paradoxical the fact that the usual product of such a training schedule is an adult whose speech is highly grammatical but not notably truthful. (R. O. Brown, 1973, p. 330)he conceptual base is responsible for formally representing the concepts underlying an utterance.... A given word in a language may or may not have one or more concepts underlying it.... On the sentential level, the utterances of a given language are encoded within a syntactic structure of that language. The basic construction of the sentential level is the sentence.The next highest level... is the conceptual level. We call the basic construction of this level the conceptualization. A conceptualization consists of concepts and certain relations among those concepts. We can consider that both levels exist at the same point in time and that for any unit on one level, some corresponding realizate exists on the other level. This realizate may be null or extremely complex.... Conceptualizations may relate to other conceptualizations by nesting or other specified relationships. (Schank, 1973, pp. 191-192)The mathematics of multi-dimensional interactive spaces and lattices, the projection of "computer behavior" on to possible models of cerebral functions, the theoretical and mechanical investigation of artificial intelligence, are producing a stream of sophisticated, often suggestive ideas.But it is, I believe, fair to say that nothing put forward until now in either theoretic design or mechanical mimicry comes even remotely in reach of the most rudimentary linguistic realities. (Steiner, 1975, p. 284)The step from the simple tool to the master tool, a tool to make tools (what we would now call a machine tool), seems to me indeed to parallel the final step to human language, which I call reconstitution. It expresses in a practical and social context the same understanding of hierarchy, and shows the same analysis by function as a basis for synthesis. (Bronowski, 1977, pp. 127-128)t is the language donn eґ in which we conduct our lives.... We have no other. And the danger is that formal linguistic models, in their loosely argued analogy with the axiomatic structure of the mathematical sciences, may block perception.... It is quite conceivable that, in language, continuous induction from simple, elemental units to more complex, realistic forms is not justified. The extent and formal "undecidability" of context-and every linguistic particle above the level of the phoneme is context-bound-may make it impossible, except in the most abstract, meta-linguistic sense, to pass from "pro-verbs," "kernals," or "deep deep structures" to actual speech. (Steiner, 1975, pp. 111-113)A higher-level formal language is an abstract machine. (Weizenbaum, 1976, p. 113)Jakobson sees metaphor and metonymy as the characteristic modes of binarily opposed polarities which between them underpin the two-fold process of selection and combination by which linguistic signs are formed.... Thus messages are constructed, as Saussure said, by a combination of a "horizontal" movement, which combines words together, and a "vertical" movement, which selects the particular words from the available inventory or "inner storehouse" of the language. The combinative (or syntagmatic) process manifests itself in contiguity (one word being placed next to another) and its mode is metonymic. The selective (or associative) process manifests itself in similarity (one word or concept being "like" another) and its mode is metaphoric. The "opposition" of metaphor and metonymy therefore may be said to represent in effect the essence of the total opposition between the synchronic mode of language (its immediate, coexistent, "vertical" relationships) and its diachronic mode (its sequential, successive, lineal progressive relationships). (Hawkes, 1977, pp. 77-78)It is striking that the layered structure that man has given to language constantly reappears in his analyses of nature. (Bronowski, 1977, p. 121)First, [an ideal intertheoretic reduction] provides us with a set of rules"correspondence rules" or "bridge laws," as the standard vernacular has it-which effect a mapping of the terms of the old theory (T o) onto a subset of the expressions of the new or reducing theory (T n). These rules guide the application of those selected expressions of T n in the following way: we are free to make singular applications of their correspondencerule doppelgangers in T o....Second, and equally important, a successful reduction ideally has the outcome that, under the term mapping effected by the correspondence rules, the central principles of T o (those of semantic and systematic importance) are mapped onto general sentences of T n that are theorems of Tn. (P. Churchland, 1979, p. 81)If non-linguistic factors must be included in grammar: beliefs, attitudes, etc. [this would] amount to a rejection of the initial idealization of language as an object of study. A priori such a move cannot be ruled out, but it must be empirically motivated. If it proves to be correct, I would conclude that language is a chaos that is not worth studying.... Note that the question is not whether beliefs or attitudes, and so on, play a role in linguistic behavior and linguistic judgments... [but rather] whether distinct cognitive structures can be identified, which interact in the real use of language and linguistic judgments, the grammatical system being one of these. (Chomsky, 1979, pp. 140, 152-153)23) Language Is Inevitably Influenced by Specific Contexts of Human InteractionLanguage cannot be studied in isolation from the investigation of "rationality." It cannot afford to neglect our everyday assumptions concerning the total behavior of a reasonable person.... An integrational linguistics must recognize that human beings inhabit a communicational space which is not neatly compartmentalized into language and nonlanguage.... It renounces in advance the possibility of setting up systems of forms and meanings which will "account for" a central core of linguistic behavior irrespective of the situation and communicational purposes involved. (Harris, 1981, p. 165)By innate [linguistic knowledge], Chomsky simply means "genetically programmed." He does not literally think that children are born with language in their heads ready to be spoken. He merely claims that a "blueprint is there, which is brought into use when the child reaches a certain point in her general development. With the help of this blueprint, she analyzes the language she hears around her more readily than she would if she were totally unprepared for the strange gabbling sounds which emerge from human mouths. (Aitchison, 1987, p. 31)Looking at ourselves from the computer viewpoint, we cannot avoid seeing that natural language is our most important "programming language." This means that a vast portion of our knowledge and activity is, for us, best communicated and understood in our natural language.... One could say that natural language was our first great original artifact and, since, as we increasingly realize, languages are machines, so natural language, with our brains to run it, was our primal invention of the universal computer. One could say this except for the sneaking suspicion that language isn't something we invented but something we became, not something we constructed but something in which we created, and recreated, ourselves. (Leiber, 1991, p. 8)Historical dictionary of quotations in cognitive science > Language
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32 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
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
launch (operations) control center — ркт. пункт управления стартового комплекса [пуском ракет]
tactical fighter weapons (employment development) center — центр разработки способов боевого применения оружия истребителей ТА
— all-sources intelligence center— C center— combat control center— educational center— logistical operations center— logistics services center— operational center— secured communications center— skill development center -
33 базовая система
1) Military: System of systems2) Engineering: core system3) Telecommunications: platform4) Information technology: basic system, kernel system5) Programming: entry-level system (минимальная вычислительная система, ресурсы которой достаточны для использования серьезных прикладных программ типа текстовых процессоров, электронных таблиц и т.п.) -
34 base
2) станина; фундаментная плита3) подстилающий слой ( грунта)4) геод. база, базис5) плинтус7) бедная руда8) метал. поддон9) основание; щёлочь10) электрон. база, базовая область11) основа; подложка12) система отсчёта; уровень отсчёта13) вчт. основание системы счисления или логарифма14) вчт. базовый адрес15) эл. изолирующее основание16) цоколь (электровакуумного прибора, лампы)19) тара дно ( ёмкости); нижняя часть сборного ящика20) деревянный настил, к которому крепится изделие при перевозке21) парк (напр. установленных единиц оборудования)•base for a system of logarithms — основание системы логарифмов;-
acetate base
-
active base
-
air base
-
air-bag base
-
aircraft maintenance base
-
aircraft wheel base
-
all-metal tube base
-
all-metal base
-
anionic base
-
anion base
-
antihalation base
-
applied knowledge base
-
axle base
-
balanced base
-
base of column
-
base of crude oil
-
base of foundation
-
base of logarithm
-
base of number system
-
base of petroleum
-
base of power
-
base of road
-
base of verification
-
basic knowledge base
-
bayonet base
-
bedrock base
-
binary base
-
binding base
-
boulder base
-
bulk base
-
camera base
-
cationic base
-
cation base
-
cellulose ester base
-
ceramic base
-
chimney base
-
circular base
-
cloud base
-
coil base
-
coke base
-
comparator base
-
compass base
-
conjugate base
-
control base
-
cooker base
-
cooperative knowledge base
-
cosmetic base
-
cream base
-
customer base
-
cyclic tertiary bases
-
data base
-
decimal base
-
distributed data base
-
Edison base
-
embankment base
-
engine test base
-
expert knowledge base
-
extrinsic base
-
fat base
-
field-time base
-
film base
-
filter base
-
floating base
-
foil base
-
general knowledge base
-
gravity base
-
grease base
-
gripper base
-
heterocyclic bases
-
highly doped base
-
honeycomb base
-
implanted base
-
index base
-
inertial base
-
initial design-data base
-
inorganic bases
-
installed base
-
insulating base
-
integrated sandwich circuit base
-
interferometer base
-
intrinsic base
-
knowledge base
-
leveling base
-
line maintenance base
-
linear base
-
line-time base
-
long base
-
low-doped base
-
lower base
-
lubricant base
-
lubricating-pad base
-
macadam base
-
machining data base
-
makeup base
-
metal base
-
mismatched bases
-
mixed base
-
mold base
-
moving base
-
multistack base
-
narrow base
-
negative base
-
Newtonian base
-
nigrosine base
-
nitrate base
-
nitrogen base
-
nonrigid road base
-
notch base
-
nucleic base
-
oil base
-
organic bases
-
package base
-
paint base
-
paper base
-
paraffin base
-
part-programming data base
-
permanent seabed guide base
-
permeable base
-
petroleum nitrogen bases
-
phosphor base
-
pin base
-
plaster base
-
plastic base
-
plow base
-
polyester base
-
primer base
-
product data base
-
pulse base
-
quarternary organic bases
-
rail base
-
remaining grouser base
-
repair base
-
retractable base
-
rigid road base
-
robot base
-
rubble base
-
salve base
-
sanitary base
-
screw base
-
sheet-annealing base
-
short base
-
signal base
-
single knowledge base
-
single-stack base
-
slope base
-
soap base
-
spray base
-
sprue base
-
standard base
-
stem base
-
stereoscopic base
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stereo base
-
strong base
-
system knowledge base
-
tape base
-
tensilized base
-
time base
-
tread base
-
triacetate base
-
tube base
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upper base
-
valve base
-
wax-soap base
-
weak base
-
wheel base -
35 control
1) управление; регулирование || управлять; регулировать2) контроль || контролировать3) управляющее устройство; устройство управления; регулятор4) профессиональное мастерство, квалификация, техническая квалификация5) pl органы управления•"in control" — "в поле допуска" ( о результатах измерения)
to control closed loop — управлять в замкнутой системе; регулировать в замкнутой системе
- 2-handed controlsto control open loop — управлять в разомкнутой системе; регулировать в разомкнутой системе
- 32-bit CPU control
- acceptance control
- access control
- acknowledge control
- active process control
- adaptable control
- adaptive constraint control
- adaptive control for optimization
- adaptive control
- adaptive feed rate control
- adaptive quality control
- adjustable feed control
- adjustable rotary control
- adjustable speed control
- adjusting control
- adjustment control
- AI control
- air logic control
- analog data distribution and control
- analogical control
- analytical control
- application control
- arrows-on-curves control
- autodepth control
- autofeed control
- automated control of a document management system
- automated technical control
- automatic backlash control
- automatic control
- automatic editing control
- automatic gain control
- automatic gripper control
- automatic level control
- automatic process closed loop control
- automatic remote control
- automatic sensitivity control
- automatic sequence control
- automatic speed control
- automatic stability controls
- auxiliaries control
- balanced controls
- band width control
- bang-bang control
- bang-bang-off control
- basic CNC control
- batch control
- bibliographic control
- bin level control
- boost control
- built-in control
- button control
- cam control
- cam throttle control
- camshaft control
- carriage control
- Cartesian path control
- Cartesian space control
- cascade control
- C-axis spindle control
- cell control
- center control
- central control
- central supervisory control
- centralized control
- centralized electronic control
- central-station control
- changeover control
- chip control
- circumferential register control
- close control
- closed cycle control
- closed loop control
- closed loop machine control
- closed loop manual control
- closed loop numerical control
- closed loop position control
- clutch control
- CNC control
- CNC indexer control
- CNC programmable control
- CNC symbolic conversational control
- CNC/CRT control
- CNC/MDI control
- coarse control
- coded current control
- coded current remote control
- color control
- combination control
- command-line control
- compensatory control
- composition control
- compound control
- computed-current control
- computed-torque control
- computer control
- computer numerical control
- computer process control
- computer-aided measurement and control
- computer-integrated manufacturing control
- computerized control
- computerized numerical control
- computerized process control
- constant surface speed control
- constant value control
- contactless control
- contact-sensing control
- contamination control
- continuous control
- continuous path control
- continuous process control
- contour profile control
- contouring control
- conventional hardware control
- conventional numerical control
- conventional tape control
- convergent control
- conversational control
- conversational MDI control
- coordinate positioning control
- coordinate programmable control
- copymill control
- counter control
- crossed controls
- current control
- cycle control
- dash control
- data link control
- data storage control
- deadman's handle controls
- depth control
- derivative control
- dial-in control
- differential control
- differential gaging control
- differential gain control
- differential temperature control
- digital brushless servo control
- digital control
- digital position control
- digital readout controls
- dimensional control
- direct computer control
- direct control
- direct digital control
- direct numerical control
- direction control
- directional control
- dirt control
- discontinuous control
- discrete control
- discrete event control
- discrete logic controls
- dispatching control
- displacement control
- distance control
- distant control
- distributed control
- distributed numerical control
- distributed zone control
- distribution control
- dog control
- drum control
- dual control
- dual-mode control
- duplex control
- dust control
- dynamic control
- eccentric control
- edge position control
- EDP control
- electrical control
- electrofluidic control
- electromagnetic control
- electronic control
- electronic level control
- electronic speed control
- electronic swivel control
- elevating control
- emergency control
- end-point control
- engineering change control
- engineering control
- entity control
- environmental control
- error control
- error plus error-rate control
- error-free control
- external beam control
- factory-floor control
- false control
- feed control
- feed drive controls
- feedback control
- feed-forward control
- field control
- fine control
- finger-tip control
- firm-wired numerical control
- fixed control
- fixed-feature control
- fixture-and-tool control
- flexible-body control
- floating control
- flow control
- fluid flow control
- follow-up control
- foot pedal control
- force adaptive control
- forecasting compensatory control
- fork control
- four quadrant control
- freely programmable CNC control
- frequency control
- FROG control
- full computer control
- full order control
- full spindle control
- gage measurement control
- gain control
- ganged control
- gap control
- gear control
- generative numerical control
- generic path control
- geometric adaptive control
- graphic numerical control
- group control
- grouped control
- guidance control
- hairbreath control
- hand control
- hand feed control
- hand wheel control
- hand-held controls
- handle-type control
- hand-operated controls
- hardened computer control
- hardwared control
- hardwared numerical control
- heating control
- heterarchical control
- hierarchical control
- high-integrity control
- high-level robot control
- high-low control
- high-low level control
- high-technology control
- horizontal directional control
- humidity control
- hybrid control
- hydraulic control
- I/O control
- immediate postprocess control
- inching control
- in-cycle control
- independent control
- indexer control
- indirect control
- individual control
- industrial processing control
- industrial-style controls
- infinite control
- infinite speed control
- in-process control
- in-process size control
- in-process size diameters control
- input/output control
- integral CNC control
- integral control
- integrated control
- intelligent control
- interacting control
- interconnected controls
- interlinking control
- inventory control
- job control
- jogging control
- joint control
- joystick control
- just-in-time control
- language-based control
- laser health hazards control
- latching control
- lead control
- learning control
- lever control
- lever-operated control
- line motion control
- linear control
- linear path control
- linearity control
- load control
- load-frequency control
- local control
- local-area control
- logic control
- lubricating oil level control
- machine control
- machine programming control
- machine shop control
- macro control
- magnetic control
- magnetic tape control
- main computer control
- malfunction control
- management control
- manual control
- manual data input control
- manual stop control
- manually actuatable controls
- manufacturing change control
- manufacturing control
- master control
- material flow control
- MDI control
- measured response control
- mechanical control
- memory NC control
- memory-type control
- metering control
- metrological control of production field
- microbased control
- microcomputer CNC control
- microcomputer numerical control
- microcomputer-based sequence control
- microprocessor control
- microprocessor numerical control
- microprogrammed control
- microprogramming control
- milling control
- model reference adaptive control
- model-based control
- moisture control
- motion control
- motor control
- motor speed control
- mouse-driven control
- movable control
- multicircuit control
- multidiameter control
- multilevel control
- multimachine tool control
- multiple control
- multiple-processor control
- multiposition control
- multistep control
- multivariable control
- narrow-band proportional control
- navigation control
- NC control
- neural network adaptive control
- noise control
- noncorresponding control
- noninteracting control
- noninterfacing control
- nonreversable control
- nonsimultaneous control
- numerical contouring control
- numerical control
- numerical program control
- odd control
- off-line control
- oligarchical control
- on-board control
- one-axis point-to-point control
- one-dimensional point-to-point control
- on-line control
- on-off control
- open loop control
- open loop manual control
- open loop numerical control
- open-architecture control
- operating control
- operational control
- operator control
- optical pattern tracing control
- optimal control
- optimalizing control
- optimizing control
- oral numerical control
- organoleptic control
- overall control
- overheat control
- override control
- p. b. control
- palm control
- parameter adaptive control
- parameter adjustment control
- partial d.o.f. control
- path control
- pattern control
- pattern tracing control
- PC control
- PC-based control
- peg board control
- pendant control
- pendant-actuated control
- pendant-mounted control
- performance control
- photoelectric control
- physical alignment control
- PIC control
- PID control
- plugboard control
- plug-in control
- pneumatic control
- point-to-point control
- pose-to-pose control
- position/contouring numerical control
- position/force control
- positional control
- positioning control
- positive control
- postprocess quality control
- power adaptive control
- power control
- power feed control
- power-assisted control
- powered control
- power-operated control
- precision control
- predictor control
- preselective control
- preset control
- presetting control
- pressbutton control
- pressure control
- preview control
- process control
- process quality control
- production activity control
- production control
- production result control
- programmable adaptive control
- programmable cam control
- programmable control
- programmable logic adaptive control
- programmable logic control
- programmable machine control
- programmable microprocessor control
- programmable numerical control
- programmable sequence control
- proportional plus derivative control
- proportional plus floating control
- proportional plus integral control
- prototype control
- pulse control
- pulse duration control
- punched-tape control
- purpose-built control
- pushbutton control
- quality control
- radio remote control
- radium control
- rail-elevating control
- ram stroke control
- ram-positioning control
- rapid-traverse controls for the heads
- rate control
- ratio control
- reactive control
- real-time control
- reduced-order control
- register control
- registration control
- relay control
- relay-contactor control
- remote control
- remote program control
- remote switching control
- remote valve control
- remote-dispatch control
- resistance control
- resolved motion rate control
- retarded control
- reversal control
- revolution control
- rigid-body control
- robot control
- robot perimeter control
- robot teach control
- rod control
- safety control
- sampled-data control
- sampling control
- schedule control
- SCR's control
- second derivative control
- selective control
- selectivity control
- self-acting control
- self-adaptive control
- self-adjusting control
- self-aligning control
- self-operated control
- self-optimizing control
- self-programming microprocessor control
- semi-automatic control
- sensitivity control
- sensor-based control
- sequence control
- sequence-type control
- sequential control
- series-parallel control
- servo control
- servo speed control
- servomotor control
- servo-operated control
- set value control
- shaft speed control
- shape control
- shift control
- shop control
- shower and high-pressure oil temperature control
- shut off control
- sight control
- sign control
- single variable control
- single-flank control
- single-lever control
- size control
- slide control
- smooth control
- software-based NC control
- softwared numerical control
- solid-state logic control
- space-follow-up control
- speed control
- stabilizing control
- stable control
- standalone control
- start controls
- static control
- station control
- statistical quality control
- steering control
- step-by-step control
- stepless control
- stepped control
- stick control
- stock control
- stop controls
- stop-point control
- storage assignment control
- straight cut control
- straight line control
- stroke control
- stroke length control
- supervisor production control
- supervisory control
- swarf control
- switch control
- symbolic control
- synchronous data link control
- table control
- tap-depth controls
- tape control
- tape loop control
- teach controls
- temperature control
- temperature-humidity air control
- template control
- tension control
- test control
- thermal control
- thermostatic control
- three-axis contouring control
- three-axis point-to-point control
- three-axis tape control
- three-mode control
- three-position control
- throttle control
- thumbwheel control
- time control
- time cycle control
- time optimal control
- time variable control
- time-critical control
- time-proportional control
- timing control
- token-passing access control
- tool life control
- tool run-time control
- torque control
- total quality control
- touch-panel NC control
- touch-screen control
- tracer control
- tracer numerical control
- trajectory control
- triac control
- trip-dog control
- TRS/rate control
- tuning control
- turnstile control
- two-axis contouring control
- two-axis point-to-point control
- two-dimension control
- two-hand controls
- two-position control
- two-position differential gap control
- two-step control
- undamped control
- user-adjustable override controls
- user-programmable NC control
- variable flow control
- variable speed control
- variety control
- varying voltage control
- velocity-based look-ahead control
- vise control
- vision responsive control
- visual control
- vocabulary control
- vocal CNC control
- vocal numerical control
- voltage control
- warehouse control
- washdown control
- water-supply control
- welding control
- wheel control
- wide-band control
- zero set control
- zoned track controlEnglish-Russian dictionary of mechanical engineering and automation > control
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36 в сочетании с
•Coupled (or In combination, or Together) with a recording system, these devices are used to measure...
•The system can be used in conjunction with a computer to perform diagnostic programming and checking industrial processes.
•A neoplasm can often be suspected on the basis of the findings from the history and the examination in conjunction with a routine blood count ( med).
•The value of the curvature, together with the magnitude of the field, gives the momentum.
•When coupled with solubility information on common salts this will allow us to develop quite a variety of "predictable" processes.
* * *В сочетании с -- in conjunction with, in combination with; combined with, coupled with, together withSome European incinerators use the rotary kiln in conjunction with a flowthrough furnace.These observations combined with the well-founded assumptions as to the basic nature of rotating stall have produced an excellent correlation.Hence the inlet conditions may be described as near uniform flow coupled with a high rate of mixing in the near wall regions.The instrument, together with the calibration adopted, enables the average temperature of the ring to be measured to an accuracy of + 1K.Русско-английский научно-технический словарь переводчика > в сочетании с
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37 метод
approach, device, manner, mean, method, mode, practice, procedure, system, technique, technology, theory, way* * *ме́тод м.
method; procedure; techniqueагрегатнопото́чный ме́тод — conveyor-type production [production-line] methodаксиомати́ческий ме́тод — axiomatic [postulational] methodме́тод амплиту́дного ана́лиза — kick-sorting methodанаглифи́ческий ме́тод картогр. — anaglyphic(al) methodме́тод аналити́ческой вста́вки топ. — cantilever extension, cantilever (strip) triangulationме́тод быстре́йшего спу́ска стат. — steepest descent methodвариацио́нный ме́тод — variational methodме́тод Верне́йля радио — Verneuil methodвесово́й ме́тод — gravimetric methodме́тод ветве́й и грани́ц киб. — branch and bound methodме́тод взба́лтывания — shake methodвизуа́льный ме́тод — visual methodме́тод возду́шной прое́кции — aero-projection methodме́тод враще́ния — method of revolutionме́тод вреза́ния — plunge-cut methodме́тод вре́мени пролё́та — time-of-flight methodвре́мя-и́мпульсный ме́тод ( преобразования аналоговой информации в дискретную) — pulse-counting method (of analog-to-digital conversion)ме́тод встре́чного фрезерова́ния — conventional [cut-up] milling methodме́тод вы́бега эл. — retardation methodме́тод вымета́ния мат. — sweep(ing)-out methodме́тод гармони́ческого бала́нса киб., автмт. — describing function methodме́тод гармони́ческой линеариза́ции — describing function methodголографи́ческий ме́тод — holographic methodгравиметри́ческий ме́тод — gravimetric(al) methodграфи́ческий ме́тод — graphical methodме́тод графи́ческого трансформи́рования топ. — grid methodграфоаналити́ческий ме́тод — semigraphical methodме́тод гра́фов мат. — graph methodгруппово́й ме́тод ( в высокочастотной телефонии) — grouped-frequency basisсисте́ма рабо́тает групповы́м ме́тодом — the system operates on the grouped-frequency basisме́тод двух ре́ек геод., топ. — two-staff [two-base] methodме́тод двух узло́в ( в анализе электрических цепей) — nodal-pair methodме́тод дирекцио́нных угло́в геод. — method of gisementsме́тод запа́са про́чности ( в расчетах конструкции) — load factor methodме́тод засе́чек афс. — resection methodме́тод зерка́льных изображе́ний эл. — method of electrical imagesме́тод зо́нной пла́вки ( в производстве монокристаллов полупроводниковых материалов) — floating-zone method, floating-zone techniqueме́тод избы́точных концентра́ций ( для опробования гипотетического механизма реакции) — isolation method (of the testing the rate equations)ме́тод измере́ния, абсолю́тный — absolute [fundamental] method of measurementме́тод измере́ния, конта́ктный — contact method of measurementме́тод измере́ния, ко́свенный — indirect method of measurementме́тод измере́ния, относи́тельный — relative method of measurementме́тод измере́ния по то́чкам — point-by-point methodме́тод измере́ния, прямо́й — direct method of measurementме́тод измере́ния угло́в по аэросни́мкам — photogoniometric methodме́тод изображе́ний эл. — method of images, image methodме́тод изото́пных индика́торов — tracer methodиммерсио́нный ме́тод — immersion methodи́мпульсный ме́тод свар. — pulse methodме́тод и́мпульсов — momentum-transfer methodме́тод инве́рсии — inversion methodи́ндексно-после́довательный ме́тод до́ступа, основно́й вчт. — basic indexed sequential access method, BISAMи́ндексно-после́довательный ме́тод до́ступа с очередя́ми вчт. — queued indexed sequential access method, BISAMинтерференцио́нный ме́тод — interferometric methodме́тод испыта́ний — testing procedure, testing methodме́тод испыта́ний, кисло́тный — acid testме́тод испыта́ний, пане́льный — panel-spalling testме́тод испыта́тельной строки́ тлв. — test-line methodме́тод иссле́дований напряже́ний, опти́ческий — optical stress analysisме́тод истече́ния — efflux methodме́тод итера́ции — iteration method, iteration techniqueме́тод итера́ции приво́дит к сходи́мости проце́сса — the iteration (process) converges to a solutionме́тод итера́ции приво́дит к (бы́строй или ме́дленной) сходи́мости проце́сса — the iteration (process) converges quickly or slowlyме́тод картосоставле́ния — map-compilation [plotting] methodме́тод кача́ющегося криста́лла ( в рентгеноструктурном анализе) — rotating-crystal methodка́чественный ме́тод — qualitative methodкессо́нный ме́тод — caisson methodколи́чественный ме́тод — quantitative methodколориметри́ческий ме́тод — colorimetric methodме́тод кольца́ и ша́ра — ball-and-ring methodкомплексометри́ческий ме́тод ( для определения жёсткости воды) — complexometric methodкондуктометри́ческий ме́тод — conductance-measuring methodме́тод коне́чных ра́зностей — finite difference methodме́тод консерви́рования — curing methodме́тод контро́ля, дифференци́рованный — differential control methodме́тод контро́ля ка́чества — quality control methodме́тод ко́нтурных то́ков — mesh-current [loop] methodме́тод ко́нуса — cone methodме́тод корнево́го годо́графа киб., автмт. — root-locus methodкорреляцио́нный ме́тод — correlation methodко́свенный ме́тод — indirect methodме́тод кра́сок ( в дефектоскопии) — dye-penetrant methodлаборато́рный ме́тод — laboratory methodме́тод ла́ковых покры́тий ( в сопротивлении материалов) — brittle-varnish methodме́тод лине́йной интерполя́ции — method of proportional partsме́тод Ляпуно́ва аргд. — Lyapunov's methodме́тод магни́тного порошка́ ( в дефектоскопии) — magnetic particle [magnetic powder] methodмагни́тно-люминесце́нтный ме́тод ( в дефектоскопии) — fluorescent magnetic particle methodме́тод ма́лого пара́метра киб., автмт. — perturbation theory, perturbation methodме́тод ма́лых возмуще́ний аргд. — perturbation methodме́тод мгнове́нной равносигна́льной зо́ны рлк. — simultaneous lobing [monopulse] methodме́тод механи́ческой обрабо́тки — machining methodме́тод ме́ченых а́томов — tracer methodме́тод микрометри́рования — micrometer methodме́тод мно́жителей Лагра́нжа — Lagrangian multiplier method, Lagrange's method of undetermined multipliersме́тод моме́нтных площаде́й мех. — area moment methodме́тод Мо́нте-Ка́рло мат. — Monte Carlo methodме́тод навига́ции, дальноме́рный ( пересечение двух окружностей) — rho-rho [r-r] navigationме́тод навига́ции, угломе́рный ( пересечение двух линий пеленга) — theta-theta [q-q] navigationме́тод наиме́ньших квадра́тов — method of least squares, least-squares techniqueме́тод наискоре́йшего спу́ска мат. — method of steepest descentме́тод нака́чки ( лазера) — pumping [excitation] methodме́тод накопле́ния яд. физ. — “backing-space” methodме́тод наложе́ния — method of superpositionме́тод напыле́ния — evaporation techniqueме́тод нару́жных заря́дов горн. — adobe blasting methodме́тод незави́симых стереопа́р топ. — method of independent image pairsненулево́й ме́тод — deflection methodме́тод неопределё́нных мно́жителей Лагра́нжа — Lagrangian multiplier method, Lagrange's method of undetermined multipliersме́тод неподви́жных то́чек — method of fixed pointsнеразруша́ющий ме́тод — non-destructive method, non-destructive testingнерекурси́вный ме́тод — non-recursive methodнето́чный ме́тод — inexact methodнефелометри́ческий ме́тод — nephelometric methodме́тод нивели́рования по частя́м — method of fraction levellingнулево́й ме́тод — null [zero(-deflection) ] methodме́тод нулевы́х бие́ний — zero-beat methodме́тод нулевы́х то́чек — neutral-points methodме́тод обеспе́чения надё́жности — reliability methodме́тод обрабо́тки — processing [working, tooling] methodме́тод обра́тной простра́нственной засе́чки топ. — method of pyramidобра́тно-ступе́нчатый ме́тод свар. — step-back methodме́тод объединё́нного а́тома — associate atom methodобъекти́вный ме́тод — objective methodобъё́мный ме́тод — volumetric methodме́тод одного́ отсчё́та ( преобразование непрерывной информации в дискретную) — the total value method (of analog-to-digital conversion)окисли́тельно-восстанови́тельный ме́тод — redox methodопера́торный ме́тод — operational methodме́тод определе́ния ме́ста, дальноме́рно-пеленгацио́нный ( пересечение прямой и окружности) — rho-theta [r-q] fixingме́тод определе́ния ме́ста, дальноме́рный ( пересечение двух окружностей) — rho-rho [r-r] fixingме́тод определе́ния ме́ста, пеленгацио́нный ( пересечение двух линий пеленга) — theta-theta [q-q] fixingме́тод определе́ния отбе́ливаемости и цве́тности ма́сел — bleach-and-colour methodме́тод определе́ния положе́ния ли́нии, двукра́тный геод. — double-line methodме́тод опти́ческой корреля́ции — optical correlation techniqueме́тод осажде́ния — sedimentation methodме́тод осо́бых возмуще́ний аргд. — singular perturbation methodме́тод осредне́ния — averaging [smoothing] methodме́тод отбо́ра проб — sampling method, sampling techniqueме́тод отклоне́ния — deflection methodме́тод отопле́ния метал. — fuel practiceме́тод отраже́ния — reflection methodме́тод отражё́нных и́мпульсов — pulse-echo methodме́тод отыска́ния произво́дной, непосре́дственный — delta methodме́тод па́дающего те́ла — falling body methodме́тод парамагни́тного резона́нса — paramagnetic-resonance methodме́тод пе́рвого приближе́ния — first approximation methodме́тод перева́ла мат. — saddle-point methodме́тод перено́са коли́чества движе́ния аргд. — momentum-transfer methodме́тод перераспределе́ния моме́нтов ( в расчёте конструкций) — moment distribution methodме́тод пересека́ющихся луче́й — crossed beam methodме́тод перехо́дного состоя́ния ( в аналитической химии) — transition state methodме́тод перпендикуля́ров — offset methodме́тод перспекти́вных се́ток топ. — grid methodме́тод пескова́ния с.-х. — sanding methodпикнометри́ческий ме́тод — bottle methodме́тод площаде́й физ. — area methodме́тод повторе́ний геод. — method of reiteration, repetition methodме́тод подбо́ра — trial-and-error [cut-and-try] methodме́тод подо́бия — similitude methodме́тод подориенти́рования топ. — setting on points of controlме́тод по́лной деформа́ции — total-strain methodме́тод полови́нных отклоне́ний — half-deflection methodме́тод положе́ния геод. — method of bearings, method of gisementsполуколи́чественный ме́тод — semiquantitative methodме́тод поля́рных координа́т — polar methodме́тод попу́тного фрезерова́ния — climb [cut-down] milling methodпорошко́вый ме́тод ( в рентгеноструктурном анализе) — powder [Debye-Scherer-Hull] methodме́тод посе́ва — seeding techniqueме́тод после́довательного счё́та ( преобразования аналоговой информации в дискретную) — incremental method (of analog-to-digital conversion)ме́тод после́довательных исключе́ний — successive exclusion methodме́тод после́довательных подстано́вок — method of successive substitution, substitution processме́тод после́довательных попра́вок — successive correction methodме́тод после́довательных приближе́ний — successive approximation methodме́тод после́довательных элимина́ций — method of exhaustionме́тод послесплавно́й диффу́зии полупр. — post-alloy-diffusion techniqueпотенциометри́ческий компенсацио́нный ме́тод — potentiometric methodпото́чно-конве́йерный ме́тод — flow-line conveyor methodпото́чный ме́тод — straight-line flow methodме́тод прерыва́ний ( для измерения скорости света) — chopped-beam methodприближё́нный ме́тод — approximate methodме́тод проб и оши́бок — trial-and-error [cut-and-try] methodме́тод программи́рующих програ́мм — programming program methodме́тод продолже́ния топ. — setting on points on controlме́тод проекти́рования, моде́льно-маке́тный — model-and-mock-up method of designме́тод простра́нственного коди́рования ( преобразования аналоговой информации в дискретную) — coded pattern method (OF analog-to-digital conversion)ме́тод простра́нственной самофикса́ции — self-fixation space methodпрямо́й ме́тод — direct methodме́тод псевдослуча́йных чи́сел — pseudorandom number methodме́тод равносигна́льной зо́ны рлк. — lobing, beam [lobe] switchingме́тод равносигна́льной зо́ны, мгнове́нный рлк. — simultaneous lobing, monopulseме́тод ра́вных высо́т геод. — equal-altitude methodме́тод ра́вных деформа́ций ( в проектировании бетонных конструкций) — equal-strain methodме́тод ра́вных отклоне́ний — equal-deflection methodрадиацио́нный ме́тод — radiation methodме́тод радиоавтогра́фии — radioautograph techniqueме́тод радиоакти́вных индика́торов — tracer methodрадиометри́ческий ме́тод — radiometric methodме́тод разбавле́ния — dilution methodме́тод разделе́ния тлв. — separation methodме́тод разделе́ния переме́нных — method of separation of variablesме́тод разли́вки метал. — teeming [pouring, casting] practiceме́тод разме́рностей — dimensional methodра́зностный ме́тод — difference methodме́тод разруша́ющей нагру́зки — load-factor methodразруша́ющий ме́тод — destructive checkме́тод рассе́яния Рэле́я — Rayleigh scattering methodме́тод ра́стра тлв. — grid methodме́тод ра́стрового скани́рования — raster-scan methodме́тод расчё́та по допусти́мым нагру́зкам — working stress design [WSD] methodме́тод расчё́та по разруша́ющим нагру́зкам стр. — ultimate-strength design [USD] methodме́тод расчё́та при по́мощи про́бной нагру́зки стр. — trial-load methodме́тод расчё́та, упру́гий стр. — elastic methodрезона́нсный ме́тод — resonance methodме́тод реитера́ций геод. — method of reiteration, repetition methodрентгенострукту́рный ме́тод — X-ray diffraction methodме́тод реше́ния зада́чи о четвё́ртой то́чке геод. — three-point methodме́тод решета́ мат. — sieve methodру́порно-ли́нзовый ме́тод радио — horn-and-lens methodме́тод самоторможе́ния — retardation methodме́тод сви́лей — schlieren technique, schlieren methodме́тод сдви́нутого сигна́ла — offset-signal methodме́тод секу́щих — secant methodме́тод се́рого кли́на физ. — gray-wedge methodме́тод се́ток мат., вчт. — net(-point) methodме́тод сече́ний ( в расчёте напряжений в фермах) — method of sectionsме́тод сил ( определение усилий в статически неопределимой системе) — work methodсимволи́ческий ме́тод — method of complex numbersме́тод симметри́чных составля́ющих — method of symmetrical components, symmetrical component methodме́тод синхро́нного накопле́ния — synchronous storage methodме́тод скани́рования полосо́й — single-line-scan television methodме́тод скани́рования пятно́м — spot-scan photomultiplier methodме́тод смеще́ния отде́льных узло́в стр. — method of separate joint displacementме́тод совпаде́ний — coincidence methodме́тод сосредото́ченных пара́метров — lumped-parameter methodме́тод спада́ния заря́да — fall-of-charge methodспектроскопи́ческий ме́тод — spectroscopic methodме́тод спира́льного скани́рования — spiral-scan methodме́тод сплавле́ния — fusion methodме́тод сплошны́х сред ( в моделировании) — continuous field analog techniqueме́тод сре́дних квадра́тов — midsquare methodстатисти́ческий ме́тод — statistical techniqueстатисти́ческий ме́тод оце́нки — statistical estimationме́тод статисти́ческих испыта́ний — Monte Carlo methodстробоголографи́ческий ме́тод — strobo-holographic methodстробоскопи́ческий ме́тод — stroboscopic methodстру́йный ме́тод метал. — jet testступе́нчатый ме́тод ( сварки или сверления) — step-by-step methodсубъекти́вный ме́тод — subjective methodме́тод сухо́го озоле́ния — dry combustion methodме́тод сухо́го порошка́ ( в дефектоскопии) — dry methodсчё́тно-и́мпульсный ме́тод — pulse-counting methodтабли́чный ме́тод — diagram methodтелевизио́нный ме́тод электро́нной аэросъё́мки — television methodтелевизио́нный ме́тод электро́нной фотограмме́трии — television methodтенево́й ме́тод — (direct-)shadow methodтермоанемометри́ческий ме́тод — hot-wire methodтопологи́ческий ме́тод — topological methodме́тод то́чечного вплавле́ния полупр. — dot alloying methodто́чный ме́тод — exact [precision] methodме́тод травле́ния, гидри́дный — sodium hydride descalingме́тод трапецеида́льных характери́стик — Floyd's trapezoidal approximation method, approximation procedureме́тод трёх баз геод. — three-base methodме́тод триангуля́ции — triangulation methodме́тод трилатера́ции геод. — trilateration methodме́тод углово́й деформа́ции — slope-deflection methodме́тод углово́й модуля́ции — angular modulation methodме́тод удаля́емого трафаре́та полупр. — rejection mask methodме́тод удаля́емой ма́ски рад. — rejection mask methodме́тод узло́в ( в расчёте напряжении в фермах) — method of jointsме́тод узловы́х потенциа́лов — node-voltage methodме́тод ура́внивания по направле́ниям геод. — method of directions, direction methodме́тод ура́внивания по угла́м геод. — method of angles, angle methodме́тод уравнове́шивания — balancing methodме́тод усредне́ния — averaging [smoothing] methodме́тод фа́зового контра́ста ( в микроскопии) — phase contrastнаблюда́ть ме́тодом фа́зового контра́ста — examine [study] by phase contrastме́тод фа́зовой пло́скости — phase plane methodме́тод факториза́ции — factorization methodфлотацио́нный ме́тод — floatation methodме́тод формирова́ния сигна́лов цве́тности тлв. — colour-processing methodме́тод центрифуги́рования — centrifuge methodцепно́й ме́тод астр. — chain methodчи́сленный ме́тод — numerical methodме́тод Чохра́льского ( в выращивании полупроводниковых кристаллов) — Czochralski method, vertical pulling techniqueме́тод Шо́ра — Shore hardnessщупово́й ме́тод — stylus methodме́тод электрофоре́за — electrophoretic methodэмпири́ческий ме́тод — trial-and-error [cut-and-try] methodэнергети́ческий ме́тод1. косм. energy method2. стр. strain energy methodме́тод энергети́ческого бала́нса — power balance methodэргати́ческий ме́тод ( при общении человека с ЭВМ) — interactive [conversational] technique -
38 unit
1) компонент; блок; модуль2) единица•- accumulator unit
- actuating unit
- addressing unit
- analog processing unit
- analytic unit
- answerback unit
- answering unit
- antitheft unit
- astronomical unit
- attached unit
- audio response unit
- auto setup unit
- automatic calling unit
- automatic control unit
- automatic network unit
- automatic-dialing unit
- auxiliary memory unit
- auxiliary servicing unit
- bad unit
- balancing unit
- base unit
- basic transmission unit
- bistable unit
- break-contact unit
- built-in heat protecting unit
- burglar-alarm unit
- calibration unit
- calling devices unit
- calling unit
- camera select unit
- camera-channel unit
- camera-control unit
- capacitor unit
- channel service unit
- charging unit
- clocking unit
- command network unit
- command protocol data unit
- communication control unit
- converter unit
- crosstalk unit
- data interface unit
- data transit unit
- data-handling unit
- dc control unit
- decoupling unit
- delay unit
- device control unit
- dial-backup unit
- dialing unit
- digital processing unit
- electronic control unit
- electronic relay unit
- electrostatic units
- exchange-line unit
- exchange-supply unit
- expedited-data unit
- fast-operating unit
- fast-operation unit
- feeding unit
- file-storage unit
- filter unit
- flyaway unit
- frequency conversion unit
- frequency lock-in unit
- frequency selection unit
- Gaussian units
- generator unit
- heat-control unit
- incoming local unit
- incoming toll unit
- incoming-line unit
- independent supply unit
- independent synchronizing unit
- indicator unit
- information unit
- input unit
- integrator unit
- internal unit
- internetworking unit
- junction line unit
- key-telephone unit
- lighting load monitoring unit
- line-connection unit
- lobe-attaching unit
- local unit
- locomotive radio components supply unit
- lone-signal unit
- loudness unit
- magnetic-tape unit
- main control unit
- main fax unit
- main memory unit
- mains synchronizing unit
- matching unit
- media interface unit
- medium attachment unit
- memory unit
- message recording unit
- microprocessor unit
- mine communication supply unit
- modular unit
- motor amplifier unit
- multipath unit
- multiprocessor unit
- multisection switching unit
- network terminating unit
- N-unit
- office interface unit
- off-line unit
- on-door speakers unit
- operational unit
- outgoing line unit
- output unit
- pan/tilt unit
- peripheral unit
- phase-shifting unit
- phasing unit
- power supply unit
- power unit
- printing unit
- processing unit
- program unit
- programming unit
- quad-on-line unit
- quartz crystal unit
- quick-disconnect control unit
- radio frequency unit
- radio station unit
- rectifier unit
- reference generator unit
- regeneration unit
- registrating unit
- relay testing unit
- relay unit
- remote control unit
- remote display unit
- remote subscriber unit
- replacement unit
- request unit
- resistor unit
- retransmission unit
- RF unit
- selective-gain unit
- self-contained unit
- sensing unit
- shared unit
- shared-control unit
- signal processing unit
- six-wire switching unit
- smooth-closing unit
- sound repetitor protection unit
- spark protecting unit
- stabilizator unit
- still picture unit
- storage unit
- studio devices unit
- sub unit
- subscriber's unit
- subundercarrier unit
- supply unit
- switch point operative communication unit
- switching unit
- synchronization signal unit
- system memory unit
- system unit
- tape unit
- telecine unit
- telecontrol unit
- telephone-control unit
- telephone-modulator unit
- teleprompter unit
- temperature-sending unit
- terminal retransmissions unit
- terminal unit
- terrestrial telemechanics unit
- three-wire switching unit
- time-base unit
- traffic unit
- transfer unit
- transit communication unit
- transmissive unit
- transmitting antenna unit
- tributary unit
- two-section switching unit
- undercarrier unit
- underground telemechanics unit
- unit of power
- vibrator unit
- video request unit
- video-out unit
- voice message control unit
- voice recognition unit
- voicememory unit
- writing unitEnglish-Russian dictionary of telecommunications and their abbreviations > unit
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39 программируемый логический контроллер
- speicherprogrammierbare Steuerung, f
программируемый логический контроллер
ПЛК
-
[Интент]
контроллер
Управляющее устройство, осуществляющее автоматическое управление посредством программной реализации алгоритмов управления.
[Сборник рекомендуемых терминов. Выпуск 107. Теория управления.
Академия наук СССР. Комитет научно-технической терминологии. 1984 г.]EN
storage-programmable logic controller
computer-aided control equipment or system whose logic sequence can be varied via a directly or remote-control connected programming device, for example a control panel, a host computer or a portable terminal
[IEV ref 351-32-34]FR
automate programmable à mémoire
См. также:
équipement ou système de commande assisté par ordinateur dont la séquence logique peut être modifiée directement ou par l'intermédiaire d'un dispositif de programmation relié à une télécommande, par exemple un panneau de commande, un ordinateur hôte ou un terminal de données portatif
[IEV ref 351-32-34]
- архитектура контроллера;
- производительность контроллера;
- время реакции контроллера;
КЛАССИФИКАЦИЯ
Основным показателем ПЛК является количество каналов ввода-вывода. По этому признаку ПЛК делятся на следующие группы:- нано- ПЛК (менее 16 каналов);
- микро-ПЛК (более 16, до 100 каналов);
- средние (более 100, до 500 каналов);
- большие (более 500 каналов).
- моноблочными - в которых устройство ввода-вывода не может быть удалено из контроллера или заменено на другое. Конструктивно контроллер представляет собой единое целое с устройствами ввода-вывода (например, одноплатный контроллер). Моноблочный контроллер может иметь, например, 16 каналов дискретного ввода и 8 каналов релейного вывода;
- модульные - состоящие из общей корзины (шасси), в которой располагаются модуль центрального процессора и сменные модули ввода-вывода. Состав модулей выбирается пользователем в зависимости от решаемой задачи. Типовое количество слотов для сменных модулей - от 8 до 32;
- распределенные (с удаленными модулями ввода-вывода) - в которых модули ввода-вывода выполнены в отдельных корпусах, соединяются с модулем контроллера по сети (обычно на основе интерфейса RS-485) и могут быть расположены на расстоянии до 1,2 км от процессорного модуля.
Многие контроллеры имеют набор сменных процессорных плат разной производительности. Это позволяет расширить круг потенциальных пользователей системы без изменения ее конструктива.
По конструктивному исполнению и способу крепления контроллеры делятся на:- панельные (для монтажа на панель или дверцу шкафа);
- для монтажа на DIN-рейку внутри шкафа;
- для крепления на стене;
- стоечные - для монтажа в стойке;
- бескорпусные (обычно одноплатные) для применения в специализированных конструктивах производителей оборудования (OEM - "Original Equipment Manufact urer").
По области применения контроллеры делятся на следующие типы:- универсальные общепромышленные;
- для управления роботами;
- для управления позиционированием и перемещением;
- коммуникационные;
- ПИД-контроллеры;
- специализированные.
По способу программирования контроллеры бывают:- программируемые с лицевой панели контроллера;
- программируемые переносным программатором;
- программируемые с помощью дисплея, мыши и клавиатуры;
- программируемые с помощью персонального компьютера.
Контроллеры могут программироваться на следующих языках:- на классических алгоритмических языках (C, С#, Visual Basic);
- на языках МЭК 61131-3.
Контроллеры могут содержать в своем составе модули ввода-вывода или не содержать их. Примерами контроллеров без модулей ввода-вывода являются коммуникационные контроллеры, которые выполняют функцию межсетевого шлюза, или контроллеры, получающие данные от контроллеров нижнего уровня иерархии АСУ ТП. Контроллеры для систем автоматизации
Слово "контроллер" произошло от английского "control" (управление), а не от русского "контроль" (учет, проверка). Контроллером в системах автоматизации называют устройство, выполняющее управление физическими процессами по записанному в него алгоритму, с использованием информации, получаемой от датчиков и выводимой в исполнительные устройства.
Первые контроллеры появились на рубеже 60-х и 70-х годов в автомобильной промышленности, где использовались для автоматизации сборочных линий. В то время компьютеры стоили чрезвычайно дорого, поэтому контроллеры строились на жесткой логике (программировались аппаратно), что было гораздо дешевле. Однако перенастройка с одной технологической линии на другую требовала фактически изготовления нового контроллера. Поэтому появились контроллеры, алгоритм работы которых мог быть изменен несколько проще - с помощью схемы соединений реле. Такие контроллеры получили название программируемых логических контроллеров (ПЛК), и этот термин сохранился до настоящего времени. Везде ниже термины "контроллер" и "ПЛК" мы будем употреблять как синонимы.
Немного позже появились ПЛК, которые можно было программировать на машинно-ориентированном языке, что было проще конструктивно, но требовало участия специально обученного программиста для внесения даже незначительных изменений в алгоритм управления. С этого момента началась борьба за упрощение процесса программирования ПЛК, которая привела сначала к созданию языков высокого уровня, затем - специализированных языков визуального программирования, похожих на язык релейной логики. В настоящее время этот процесс завершился созданием международного стандарта IEC (МЭК) 1131-3, который позже был переименован в МЭК 61131-3. Стандарт МЭК 61131-3 поддерживает пять языков технологического программирования, что исключает необходимость привлечения профессиональных программистов при построении систем с контроллерами, оставляя для них решение нестандартных задач.
В связи с тем, что способ программирования является наиболее существенным классифицирующим признаком контроллера, понятие "ПЛК" все реже используется для обозначения управляющих контроллеров, которые не поддерживают технологические языки программирования. Жесткие ограничения на стоимость и огромное разнообразие целей автоматизации привели к невозможности создания универсального ПЛК, как это случилось с офисными компьютерами. Область автоматизации выдвигает множество задач, в соответствии с которыми развивается и рынок, содержащий сотни непохожих друг на друга контроллеров, различающихся десятками параметров.
Выбор оптимального для конкретной задачи контроллера основывается обычно на соответствии функциональных характеристик контроллера решаемой задаче при условии минимальной его стоимости. Учитываются также другие важные характеристики (температурный диапазон, надежность, бренд изготовителя, наличие разрешений Ростехнадзора, сертификатов и т. п.).
Несмотря на огромное разнообразие контроллеров, в их развитии заметны следующие общие тенденции:- уменьшение габаритов;
- расширение функциональных возможностей;
- увеличение количества поддерживаемых интерфейсов и сетей;
- использование идеологии "открытых систем";
- использование языков программирования стандарта МЭК 61131-3;
- снижение цены.
[ http://bookasutp.ru/Chapter6_1.aspx]
Программируемый логический контроллер (ПЛК, PLC) – микропроцессорное устройство, предназначенное для управления технологическим процессом и другими сложными технологическими объектами.
Принцип работы контроллера состоит в выполнение следующего цикла операций:
1. Сбор сигналов с датчиков;
2. Обработка сигналов согласно прикладному алгоритму управления;
3. Выдача управляющих воздействий на исполнительные устройства.
В нормальном режиме работы контроллер непрерывно выполняет этот цикл с частотой от 50 раз в секунду. Время, затрачиваемое контроллером на выполнение полного цикла, часто называют временем (или периодом) сканирования; в большинстве современных ПЛК сканирование может настраиваться пользователем в диапазоне от 20 до 30000 миллисекунд. Для быстрых технологических процессов, где критична скорость реакции системы и требуется оперативное регулирование, время сканирования может составлять 20 мс, однако для большинства непрерывных процессов период 100 мс считается вполне приемлемым.
Аппаратно контроллеры имеют модульную архитектуру и могут состоять из следующих компонентов:
1. Базовая панель ( Baseplate). Она служит для размещения на ней других модулей системы, устанавливаемых в специально отведенные позиции (слоты). Внутри базовой панели проходят две шины: одна - для подачи питания на электронные модули, другая – для пересылки данных и информационного обмена между модулями.
2. Модуль центрального вычислительного устройства ( СPU). Это мозг системы. Собственно в нем и происходит математическая обработка данных. Для связи с другими устройствами CPU часто оснащается сетевым интерфейсом, поддерживающим тот или иной коммуникационный стандарт.
3. Дополнительные коммуникационные модули. Необходимы для добавления сетевых интерфейсов, неподдерживаемых напрямую самим CPU. Коммуникационные модули существенно расширяют возможности ПЛК по сетевому взаимодействию. C их помощью к контроллеру подключают узлы распределенного ввода/вывода, интеллектуальные полевые приборы и станции операторского уровня.
4. Блок питания. Нужен для запитки системы от 220 V. Однако многие ПЛК не имеют стандартного блока питания и запитываются от внешнего.Рис.1. Контроллер РСУ с коммуникациями Profibus и Ethernet.
Иногда на базовую панель, помимо указанных выше, допускается устанавливать модули ввода/вывода полевых сигналов, которые образуют так называемый локальный ввод/вывод. Однако для большинства РСУ (DCS) характерно использование именно распределенного (удаленного) ввода/вывода.
Отличительной особенностью контроллеров, применяемых в DCS, является возможность их резервирования. Резервирование нужно для повышения отказоустойчивости системы и заключается, как правило, в дублировании аппаратных модулей системы.Рис. 2. Резервированный контроллер с коммуникациями Profibus и Ethernet.
Резервируемые модули работают параллельно и выполняют одни и те же функции. При этом один модуль находится в активном состоянии, а другой, являясь резервом, – в режиме “standby”. В случае отказа активного модуля, система автоматически переключается на резерв (это называется “горячий резерв”).
Обратите внимание, контроллеры связаны шиной синхронизации, по которой они мониторят состояние друг друга. Это решение позволяет разнести резервированные модули на значительное расстояние друг от друга (например, расположить их в разных шкафах или даже аппаратных).
Допустим, в данный момент активен левый контроллер, правый – находится в резерве. При этом, даже находясь в резерве, правый контроллер располагает всеми процессными данными и выполняет те же самые математические операции, что и левый. Контроллеры синхронизированы. Предположим, случается отказ левого контроллера, а именно модуля CPU. Управление автоматически передается резервному контроллеру, и теперь он становится главным. Здесь очень большое значение имеют время, которое система тратит на переключение на резерв (обычно меньше 0.5 с) и отсутствие возмущений (удара). Теперь система работает на резерве. Как только инженер заменит отказавший модуль CPU на исправный, система автоматически передаст ему управление и возвратится в исходное состояние.
На рис. 3 изображен резервированный контроллер S7-400H производства Siemens. Данный контроллер входит в состав РСУ Simatic PCS7.Рис. 3. Резервированный контроллер S7-400H. Несколько другое техническое решение показано на примере резервированного контроллера FCP270 производства Foxboro (рис. 4). Данный контроллер входит в состав системы управления Foxboro IA Series.Рис. 4. Резервированный контроллер FCP270.
На базовой панели инсталлировано два процессорных модуля, работающих как резервированная пара, и коммуникационный модуль для сопряжения с оптическими сетями стандарта Ethernet. Взаимодействие между модулями происходит по внутренней шине (тоже резервированной), спрятанной непосредственно в базовую панель (ее не видно на рисунке).
На рисунке ниже показан контроллер AC800M производства ABB (часть РСУ Extended Automation System 800xA).Рис. 5. Контроллер AC800M.
Это не резервированный вариант. Контроллер состоит из двух коммуникационных модулей, одного СPU и одного локального модуля ввода/вывода. Кроме этого, к контроллеру можно подключить до 64 внешних модулей ввода/вывода.
При построении РСУ важно выбрать контроллер, удовлетворяющий всем техническим условиям и требованиям конкретного производства. Подбирая оптимальную конфигурацию, инженеры оперируют определенными техническими характеристиками промышленных контроллеров. Наиболее значимые перечислены ниже:
1. Возможность полного резервирования. Для задач, где отказоустойчивость критична (химия, нефтехимия, металлургия и т.д.), применение резервированных конфигураций вполне оправдано, тогда как для других менее ответственных производств резервирование зачастую оказывается избыточным решением.
2. Количество и тип поддерживаемых коммуникационных интерфейсов. Это определяет гибкость и масштабируемость системы управления в целом. Современные контроллеры способны поддерживать до 10 стандартов передачи данных одновременно, что во многом определяет их универсальность.
3. Быстродействие. Измеряется, как правило, в количестве выполняемых в секунду элементарных операций (до 200 млн.). Иногда быстродействие измеряется количеством обрабатываемых за секунду функциональных блоков (что такое функциональный блок – будет рассказано в следующей статье). Быстродействие зависит от типа центрального процессора (популярные производители - Intel, AMD, Motorola, Texas Instruments и т.д.)
4. Объем оперативной памяти. Во время работы контроллера в его оперативную память загружены запрограммированные пользователем алгоритмы автоматизированного управления, операционная система, библиотечные модули и т.д. Очевидно, чем больше оперативной памяти, тем сложнее и объемнее алгоритмы контроллер может выполнять, тем больше простора для творчества у программиста. Варьируется от 256 килобайт до 32 мегабайт.
5. Надежность. Наработка на отказ до 10-12 лет.
6. Наличие специализированных средств разработки и поддержка различных языков программирования. Очевидно, что существование специализированный среды разработки прикладных программ – это стандарт для современного контроллера АСУ ТП. Для удобства программиста реализуется поддержка сразу нескольких языков как визуального, так и текстового (процедурного) программирования (FBD, SFC, IL, LAD, ST; об этом в следующей статье).
7. Возможность изменения алгоритмов управления на “лету” (online changes), т.е. без остановки работы контроллера. Для большинства контроллеров, применяемых в РСУ, поддержка online changes жизненно необходима, так как позволяет тонко настраивать систему или расширять ее функционал прямо на работающем производстве.
8. Возможность локального ввода/вывода. Как видно из рис. 4 контроллер Foxboro FCP270 рассчитан на работу только с удаленной подсистемой ввода/вывода, подключаемой к нему по оптическим каналам. Simatic S7-400 может спокойно работать как с локальными модулями ввода/вывода (свободные слоты на базовой панели есть), так и удаленными узлами.
9. Вес, габаритные размеры, вид монтажа (на DIN-рейку, на монтажную панель или в стойку 19”). Важно учитывать при проектировании и сборке системных шкафов.
10. Условия эксплуатации (температура, влажность, механические нагрузки). Большинство промышленных контроллеров могут работать в нечеловеческих условиях от 0 до 65 °С и при влажности до 95-98%.
[ http://kazanets.narod.ru/PLC_PART1.htm]Тематики
Синонимы
EN
DE
- speicherprogrammierbare Steuerung, f
FR
Русско-немецкий словарь нормативно-технической терминологии > программируемый логический контроллер
40 automate programmable à mémoire
программируемый логический контроллер
ПЛК
-
[Интент]
контроллер
Управляющее устройство, осуществляющее автоматическое управление посредством программной реализации алгоритмов управления.
[Сборник рекомендуемых терминов. Выпуск 107. Теория управления.
Академия наук СССР. Комитет научно-технической терминологии. 1984 г.]EN
storage-programmable logic controller
computer-aided control equipment or system whose logic sequence can be varied via a directly or remote-control connected programming device, for example a control panel, a host computer or a portable terminal
[IEV ref 351-32-34]FR
automate programmable à mémoire
См. также:
équipement ou système de commande assisté par ordinateur dont la séquence logique peut être modifiée directement ou par l'intermédiaire d'un dispositif de programmation relié à une télécommande, par exemple un panneau de commande, un ordinateur hôte ou un terminal de données portatif
[IEV ref 351-32-34]
- архитектура контроллера;
- производительность контроллера;
- время реакции контроллера;
КЛАССИФИКАЦИЯ
Основным показателем ПЛК является количество каналов ввода-вывода. По этому признаку ПЛК делятся на следующие группы:- нано- ПЛК (менее 16 каналов);
- микро-ПЛК (более 16, до 100 каналов);
- средние (более 100, до 500 каналов);
- большие (более 500 каналов).
- моноблочными - в которых устройство ввода-вывода не может быть удалено из контроллера или заменено на другое. Конструктивно контроллер представляет собой единое целое с устройствами ввода-вывода (например, одноплатный контроллер). Моноблочный контроллер может иметь, например, 16 каналов дискретного ввода и 8 каналов релейного вывода;
- модульные - состоящие из общей корзины (шасси), в которой располагаются модуль центрального процессора и сменные модули ввода-вывода. Состав модулей выбирается пользователем в зависимости от решаемой задачи. Типовое количество слотов для сменных модулей - от 8 до 32;
- распределенные (с удаленными модулями ввода-вывода) - в которых модули ввода-вывода выполнены в отдельных корпусах, соединяются с модулем контроллера по сети (обычно на основе интерфейса RS-485) и могут быть расположены на расстоянии до 1,2 км от процессорного модуля.
Многие контроллеры имеют набор сменных процессорных плат разной производительности. Это позволяет расширить круг потенциальных пользователей системы без изменения ее конструктива.
По конструктивному исполнению и способу крепления контроллеры делятся на:- панельные (для монтажа на панель или дверцу шкафа);
- для монтажа на DIN-рейку внутри шкафа;
- для крепления на стене;
- стоечные - для монтажа в стойке;
- бескорпусные (обычно одноплатные) для применения в специализированных конструктивах производителей оборудования (OEM - "Original Equipment Manufact urer").
По области применения контроллеры делятся на следующие типы:- универсальные общепромышленные;
- для управления роботами;
- для управления позиционированием и перемещением;
- коммуникационные;
- ПИД-контроллеры;
- специализированные.
По способу программирования контроллеры бывают:- программируемые с лицевой панели контроллера;
- программируемые переносным программатором;
- программируемые с помощью дисплея, мыши и клавиатуры;
- программируемые с помощью персонального компьютера.
Контроллеры могут программироваться на следующих языках:- на классических алгоритмических языках (C, С#, Visual Basic);
- на языках МЭК 61131-3.
Контроллеры могут содержать в своем составе модули ввода-вывода или не содержать их. Примерами контроллеров без модулей ввода-вывода являются коммуникационные контроллеры, которые выполняют функцию межсетевого шлюза, или контроллеры, получающие данные от контроллеров нижнего уровня иерархии АСУ ТП. Контроллеры для систем автоматизации
Слово "контроллер" произошло от английского "control" (управление), а не от русского "контроль" (учет, проверка). Контроллером в системах автоматизации называют устройство, выполняющее управление физическими процессами по записанному в него алгоритму, с использованием информации, получаемой от датчиков и выводимой в исполнительные устройства.
Первые контроллеры появились на рубеже 60-х и 70-х годов в автомобильной промышленности, где использовались для автоматизации сборочных линий. В то время компьютеры стоили чрезвычайно дорого, поэтому контроллеры строились на жесткой логике (программировались аппаратно), что было гораздо дешевле. Однако перенастройка с одной технологической линии на другую требовала фактически изготовления нового контроллера. Поэтому появились контроллеры, алгоритм работы которых мог быть изменен несколько проще - с помощью схемы соединений реле. Такие контроллеры получили название программируемых логических контроллеров (ПЛК), и этот термин сохранился до настоящего времени. Везде ниже термины "контроллер" и "ПЛК" мы будем употреблять как синонимы.
Немного позже появились ПЛК, которые можно было программировать на машинно-ориентированном языке, что было проще конструктивно, но требовало участия специально обученного программиста для внесения даже незначительных изменений в алгоритм управления. С этого момента началась борьба за упрощение процесса программирования ПЛК, которая привела сначала к созданию языков высокого уровня, затем - специализированных языков визуального программирования, похожих на язык релейной логики. В настоящее время этот процесс завершился созданием международного стандарта IEC (МЭК) 1131-3, который позже был переименован в МЭК 61131-3. Стандарт МЭК 61131-3 поддерживает пять языков технологического программирования, что исключает необходимость привлечения профессиональных программистов при построении систем с контроллерами, оставляя для них решение нестандартных задач.
В связи с тем, что способ программирования является наиболее существенным классифицирующим признаком контроллера, понятие "ПЛК" все реже используется для обозначения управляющих контроллеров, которые не поддерживают технологические языки программирования. Жесткие ограничения на стоимость и огромное разнообразие целей автоматизации привели к невозможности создания универсального ПЛК, как это случилось с офисными компьютерами. Область автоматизации выдвигает множество задач, в соответствии с которыми развивается и рынок, содержащий сотни непохожих друг на друга контроллеров, различающихся десятками параметров.
Выбор оптимального для конкретной задачи контроллера основывается обычно на соответствии функциональных характеристик контроллера решаемой задаче при условии минимальной его стоимости. Учитываются также другие важные характеристики (температурный диапазон, надежность, бренд изготовителя, наличие разрешений Ростехнадзора, сертификатов и т. п.).
Несмотря на огромное разнообразие контроллеров, в их развитии заметны следующие общие тенденции:- уменьшение габаритов;
- расширение функциональных возможностей;
- увеличение количества поддерживаемых интерфейсов и сетей;
- использование идеологии "открытых систем";
- использование языков программирования стандарта МЭК 61131-3;
- снижение цены.
[ http://bookasutp.ru/Chapter6_1.aspx]
Программируемый логический контроллер (ПЛК, PLC) – микропроцессорное устройство, предназначенное для управления технологическим процессом и другими сложными технологическими объектами.
Принцип работы контроллера состоит в выполнение следующего цикла операций:
1. Сбор сигналов с датчиков;
2. Обработка сигналов согласно прикладному алгоритму управления;
3. Выдача управляющих воздействий на исполнительные устройства.
В нормальном режиме работы контроллер непрерывно выполняет этот цикл с частотой от 50 раз в секунду. Время, затрачиваемое контроллером на выполнение полного цикла, часто называют временем (или периодом) сканирования; в большинстве современных ПЛК сканирование может настраиваться пользователем в диапазоне от 20 до 30000 миллисекунд. Для быстрых технологических процессов, где критична скорость реакции системы и требуется оперативное регулирование, время сканирования может составлять 20 мс, однако для большинства непрерывных процессов период 100 мс считается вполне приемлемым.
Аппаратно контроллеры имеют модульную архитектуру и могут состоять из следующих компонентов:
1. Базовая панель ( Baseplate). Она служит для размещения на ней других модулей системы, устанавливаемых в специально отведенные позиции (слоты). Внутри базовой панели проходят две шины: одна - для подачи питания на электронные модули, другая – для пересылки данных и информационного обмена между модулями.
2. Модуль центрального вычислительного устройства ( СPU). Это мозг системы. Собственно в нем и происходит математическая обработка данных. Для связи с другими устройствами CPU часто оснащается сетевым интерфейсом, поддерживающим тот или иной коммуникационный стандарт.
3. Дополнительные коммуникационные модули. Необходимы для добавления сетевых интерфейсов, неподдерживаемых напрямую самим CPU. Коммуникационные модули существенно расширяют возможности ПЛК по сетевому взаимодействию. C их помощью к контроллеру подключают узлы распределенного ввода/вывода, интеллектуальные полевые приборы и станции операторского уровня.
4. Блок питания. Нужен для запитки системы от 220 V. Однако многие ПЛК не имеют стандартного блока питания и запитываются от внешнего.Рис.1. Контроллер РСУ с коммуникациями Profibus и Ethernet.
Иногда на базовую панель, помимо указанных выше, допускается устанавливать модули ввода/вывода полевых сигналов, которые образуют так называемый локальный ввод/вывод. Однако для большинства РСУ (DCS) характерно использование именно распределенного (удаленного) ввода/вывода.
Отличительной особенностью контроллеров, применяемых в DCS, является возможность их резервирования. Резервирование нужно для повышения отказоустойчивости системы и заключается, как правило, в дублировании аппаратных модулей системы.Рис. 2. Резервированный контроллер с коммуникациями Profibus и Ethernet.
Резервируемые модули работают параллельно и выполняют одни и те же функции. При этом один модуль находится в активном состоянии, а другой, являясь резервом, – в режиме “standby”. В случае отказа активного модуля, система автоматически переключается на резерв (это называется “горячий резерв”).
Обратите внимание, контроллеры связаны шиной синхронизации, по которой они мониторят состояние друг друга. Это решение позволяет разнести резервированные модули на значительное расстояние друг от друга (например, расположить их в разных шкафах или даже аппаратных).
Допустим, в данный момент активен левый контроллер, правый – находится в резерве. При этом, даже находясь в резерве, правый контроллер располагает всеми процессными данными и выполняет те же самые математические операции, что и левый. Контроллеры синхронизированы. Предположим, случается отказ левого контроллера, а именно модуля CPU. Управление автоматически передается резервному контроллеру, и теперь он становится главным. Здесь очень большое значение имеют время, которое система тратит на переключение на резерв (обычно меньше 0.5 с) и отсутствие возмущений (удара). Теперь система работает на резерве. Как только инженер заменит отказавший модуль CPU на исправный, система автоматически передаст ему управление и возвратится в исходное состояние.
На рис. 3 изображен резервированный контроллер S7-400H производства Siemens. Данный контроллер входит в состав РСУ Simatic PCS7.Рис. 3. Резервированный контроллер S7-400H. Несколько другое техническое решение показано на примере резервированного контроллера FCP270 производства Foxboro (рис. 4). Данный контроллер входит в состав системы управления Foxboro IA Series.Рис. 4. Резервированный контроллер FCP270.
На базовой панели инсталлировано два процессорных модуля, работающих как резервированная пара, и коммуникационный модуль для сопряжения с оптическими сетями стандарта Ethernet. Взаимодействие между модулями происходит по внутренней шине (тоже резервированной), спрятанной непосредственно в базовую панель (ее не видно на рисунке).
На рисунке ниже показан контроллер AC800M производства ABB (часть РСУ Extended Automation System 800xA).Рис. 5. Контроллер AC800M.
Это не резервированный вариант. Контроллер состоит из двух коммуникационных модулей, одного СPU и одного локального модуля ввода/вывода. Кроме этого, к контроллеру можно подключить до 64 внешних модулей ввода/вывода.
При построении РСУ важно выбрать контроллер, удовлетворяющий всем техническим условиям и требованиям конкретного производства. Подбирая оптимальную конфигурацию, инженеры оперируют определенными техническими характеристиками промышленных контроллеров. Наиболее значимые перечислены ниже:
1. Возможность полного резервирования. Для задач, где отказоустойчивость критична (химия, нефтехимия, металлургия и т.д.), применение резервированных конфигураций вполне оправдано, тогда как для других менее ответственных производств резервирование зачастую оказывается избыточным решением.
2. Количество и тип поддерживаемых коммуникационных интерфейсов. Это определяет гибкость и масштабируемость системы управления в целом. Современные контроллеры способны поддерживать до 10 стандартов передачи данных одновременно, что во многом определяет их универсальность.
3. Быстродействие. Измеряется, как правило, в количестве выполняемых в секунду элементарных операций (до 200 млн.). Иногда быстродействие измеряется количеством обрабатываемых за секунду функциональных блоков (что такое функциональный блок – будет рассказано в следующей статье). Быстродействие зависит от типа центрального процессора (популярные производители - Intel, AMD, Motorola, Texas Instruments и т.д.)
4. Объем оперативной памяти. Во время работы контроллера в его оперативную память загружены запрограммированные пользователем алгоритмы автоматизированного управления, операционная система, библиотечные модули и т.д. Очевидно, чем больше оперативной памяти, тем сложнее и объемнее алгоритмы контроллер может выполнять, тем больше простора для творчества у программиста. Варьируется от 256 килобайт до 32 мегабайт.
5. Надежность. Наработка на отказ до 10-12 лет.
6. Наличие специализированных средств разработки и поддержка различных языков программирования. Очевидно, что существование специализированный среды разработки прикладных программ – это стандарт для современного контроллера АСУ ТП. Для удобства программиста реализуется поддержка сразу нескольких языков как визуального, так и текстового (процедурного) программирования (FBD, SFC, IL, LAD, ST; об этом в следующей статье).
7. Возможность изменения алгоритмов управления на “лету” (online changes), т.е. без остановки работы контроллера. Для большинства контроллеров, применяемых в РСУ, поддержка online changes жизненно необходима, так как позволяет тонко настраивать систему или расширять ее функционал прямо на работающем производстве.
8. Возможность локального ввода/вывода. Как видно из рис. 4 контроллер Foxboro FCP270 рассчитан на работу только с удаленной подсистемой ввода/вывода, подключаемой к нему по оптическим каналам. Simatic S7-400 может спокойно работать как с локальными модулями ввода/вывода (свободные слоты на базовой панели есть), так и удаленными узлами.
9. Вес, габаритные размеры, вид монтажа (на DIN-рейку, на монтажную панель или в стойку 19”). Важно учитывать при проектировании и сборке системных шкафов.
10. Условия эксплуатации (температура, влажность, механические нагрузки). Большинство промышленных контроллеров могут работать в нечеловеческих условиях от 0 до 65 °С и при влажности до 95-98%.
[ http://kazanets.narod.ru/PLC_PART1.htm]Тематики
Синонимы
EN
DE
- speicherprogrammierbare Steuerung, f
FR
Франко-русский словарь нормативно-технической терминологии > automate programmable à mémoire
СтраницыСм. также в других словарях:
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