descriptive abstract

descriptive abstract

описательный (дескриптивный) реферат( в информационно-поисковой системе)

descriptive abstract

описательный (дескриптивный) реферат ( в информационно-поисковой системе)

descriptive abstract

Техника: дескриптивный реферат (в информационно-поисковой системе), описательный реферат

descriptive abstract

дескриптивный реферат, описательный реферат

descriptive abstract

дескриптивный реферат, описательный реферат

descriptive abstract

дескриптивный реферат

standard descriptive abstract

Вычислительная техника: стандартная аннотация

standard descriptive abstract

стандартная аннотация

abstract

вчт

1) абстракция (1. метод познания 2. абстрагирование, использование абстракции; отвлечение 3. абстрактный объект; абстрактное понятие; абстрактные данные) || абстрагировать(ся); использовать абстракцию || абстрактный; отвлечённый

2) реферат-|| реферировать, составлять реферат

- descriptive abstract

- informative abstract
- review abstract

abstract

вчт.

1) абстракция (1. метод познания 2. абстрагирование, использование абстракции; отвлечение 3. абстрактный объект; абстрактное понятие; абстрактные данные) || абстрагировать(ся); использовать абстракцию || абстрактный; отвлечённый

2) реферат || реферировать, составлять реферат

•

- descriptive abstract

- informative abstract
- review abstract

abstract

1) аннотация

2) реферат; конспект; резюме

3) абстрактный объект

4) абстрагировать(ся)

•

-
descriptive abstract
-
informative abstract

описательный реферат

descriptive abstract

описательный реферат

( в информационно-поисковой системе) descriptive abstract

SDA

1) Компьютерная техника: Simplified Data Access

2) Геология: самолокализующийся кислотный состав (Self Diverting Acid)

3) Военный термин: Ships Destination Authority, Standard Double Arm, Strategic Defense Architecture, Strike Damage Assessment, severe damage to artillery, special duty assignment, supporting data analysis, system design activity, systems data analysis

4) Техника: shallow-diode array, shutdown to acidize, slewing drive assembly, software development activities, standard design approval, startup detector assembly, supplier data approval

5) Религия: Seventh Day Adventist, Seventh Day Adventists

6) Юридический термин: Single Daily Action

7) Ветеринария: Scottish Dairy Association

8) Грубое выражение: Some Dumb Ass

9) Телевидение: шина данных

10) Сокращение: Soldier's Digital Assistant, Strategic Defence Architecture, System Design Authority, Self Decrypting Archive, Source Data Automation, strand displacement amplification

11) Вычислительная техника: Shared Data Architecture, Software Design Automation, System Display Architecture, standard descriptive abstract, synchronous data adapter, Swappable Data Area (DOS), Screen Design Aid (IBM, ADT)

12) Литература: Select Distinguished Area

13) Нефть: shut down to acidize, остановка скважины для проведения кислотной обработки пласта (shutdown to acidize)

14) Биохимия: Sabouraud Dextrose Agar

15) Банковское дело: статическая проверка данных (Static Data Authentication)

16) Деловая лексика: Simple Direct And Appropriate

17) Глоссарий компании Сахалин Энерджи: Sanitary Design Assignment, Shell Development Australia

18) Образование: Service Delivery Area

19) Сетевые технологии: Serial data acquisition, стандартная аннотация

20) Океанография: Survey Documentation And Analysis

21) Сахалин Ю: strategic decision analysis

22) Авиационная медицина: specific dynamic action

23) Расширение файла: Share Distribution Agency, Software Disk Array, Software Distribution Network file archive description, Symbolic Device Address, System Display Architecture (Digital), Software Delivery Agent (IBM)

24) Нефть и газ: Static Dissipater Additive (антистатическая присадка)

25) Нефтеперерабатывающие заводы: solvent deasphalting

26) Молекулярная биология: Strand Displacement Amplification( амплификация с перемещением цепи)

27) Фармация: State Drug Administration (Китай)

28) Общественная организация: Service Dogs for America

29) Должность: Severe Disability Allowance

30) Аэропорты: Baghdad International Airport, Baghdad, Iraq

31) Программное обеспечение: Secondary Data Access, Speed Demos Archive

32) Профсоюзы: Shop, Distributive and Allied Employees' Association

SDA

сокр. от Standard Descriptive Abstract

стандартная аннотация

trademark

1) товарный знак (прошедшее государственную регистрацию обозначение, обладающее способностью отличать товары или услуги одних юридических или физических лиц от товаров или услуг других юридических или физических лиц)

2) маркировать товарным знаком; охранять товарным знаком

•

- trademark adopted to distinguish

- trademark capable of distinguishing
- trademark lacking distinctiveness
- trademark perceived by smell
- trademark perceived by taste
- trademark perceived by touch
- trademark protected telle quelle
- trademark of intended commerce
- abstract trademark
- active trademark
- adopted trademark
- almost identical trademarks
- altered trademark
- amended trademark
- arbitrary trademark
- associated trademark
- bourgeois-realist trademark
- certification trademark
- circle trademark
- collective trademark
- combination trademarks
- combined trademarks
- commonly descriptive trademark
- computerized trademark
- conflicting trademark
- confusing trademark
- corporate trademark
- deceptive trademark
- defensive trademark
- descriptive trademark
- design trademark
- device trademark
- disclaimed trademark
- distinctive trademark
- famous trademark
- fanciful trademark
- federally-registred trademark
- figurative trademark
- figure trademark
- forged trademark
- generic trademark
- identical trademarks
- imitated trademark
- imitative trademark
- incontestable trademark
- infringed trademark
- international trademarks under the Madrid Agreement
- internationally uniform trademarks
- invented word trademark
- jointly owned trademark
- legitimate trademark
- letter trademark
- logo trademark
- monogram trademark
- national trademark
- national trademark under the TRT
- native trademark
- notorious trademark
- obsolete trademark
- official trademark
- old-fashioned trademark
- persuasive trademark
- pharmaceutical trademark
- pictorial trademark
- policing trademark
- presentation trademark
- printed trademark
- prospective trademark
- recognized trademark
- registered trademark
- rejuvenated trademark
- representation trademark
- resembling trademarks
- service trademark
- signature trademark
- similar trademarks
- sketchy trademark
- slogan trademark
- sonor trademark
- sophisticated trademark
- sound trademark
- static trademark
- strong trademark
- stylized trademark
- substantially identical trademarks
- suggestive trademark
- symbolic trademark
- technical trademark
- three-dimensional trademark
- twen trademark
- umbrella trademark
- uniform trademarks
- unregistered trademark
- used trademark
- vertically aligned trademark
- visual trademark
- weak trademark
- well-known trademark
- well-recognized trademark
- word trademark
- world-known trademark
- world-renowned trademark

geometry

геометрия

geometry with commutative multiplication — геометрия с коммутативным умножением

pertaining to descriptive geometry — наглядно-геометрический

pertaining to solid geometry — стереометрический

- absolute geometry

- abstract geometry

- adele geometry

- affine differential geometry

- affine geometry

- algebraic geometry

- analytic geometry

- applied geometry

- arithmetical algebraic geometry

- atomic projective geometry

- axiomatic geometry

- biplanar geometry

- birational geometry

- caoutchouc geometry

- cellular geometry

- centroaffine geometry

- centroprojective geometry

- classical geometry

- code geometry

- combinatorial geometry

- complex geometry

- computational geometry

- concircular geometry

- conformal geometry

- conformly differential geometry

- conical geometry

- constructive geometry

- continuous geometry

- cusp geometry

- cutting-tool geometry

- cylindrical geometry

- descriptive geometry

- differential geometry

- discrete geometry

- distance geometry

- dual geometry

- elementary geometry

- elliptic geometry

- elliptic-spherical geometry

- enumerative geometry

- equaffine geometry

- equiaffine geometry

- equicentroaffine geometry

- Euclidean geometry

- extrinsic geometry

- finite geometry

- functional geometry

- geodesic geometry

- geometry of bundles

- geometry of extremals

- geometry of generalized manifolds

- geometry of generalized spaces - geometry of inverse radia

- geometry of numbers

- geometry of solution

- geometry of space

- geometry of surfaces

- global geometry

- good geometry

- higher geometry

- holomorphic geometry

- hyperbolic geometry

- hyperbolic-spherical geometry

- imaginary geometry

- incidence geometry

- infinitesimal geometry

- informal geometry

- integral geometry

- interdigitated geometry

- intrinsic geometry

- inverse geometry

- isotropic geometry

- kinematic geometry

- lattice geometry

- line geometry

- linear geometry

- local geometry

- metric geometry

- metrical geometry

- Minkowski geometry

- modular geometry

- multidimensional geometry

- n-dimensional geometry

- new geometry

- nominal geometry

- non-Euclidean geometry

- nonholonomic geometry

- nonmetric geometry

- nonsingular geometry

- ordered geometry

- orthogonal geometry

- parabolic geometry

- partial geometry

- pentaspherical geometry

- perspective geometry

- plane geometry

- polymetric geometry

- poor geometry

- probabilistic geometry

- projectively differential geometry

- proximity geometry

- pseudospherical geometry

- punctual geometry

- pure projective geometry

- quasihyperbolic geometry

- quotient geometry

- rectifiable geometry

- relative geometry

- Riemannian geometry

- ruled geometry

- set-theoretic geometry

- similarity geometry

- simplicial geometry

- solid geometry

- space geometry

- spatial geometry

- spectral geometry

- statistical geometry

- stochastic geometry

- surface geometry

- symplectic geometry

- synthetic geometry

- synthetical geometry

- three-dimensional geometry

- tissue geometry

- transversal geometry

- two-dimensional geometry

- unitary geometry

- variable geometry

- vector geometry

Artificial Intelligence

   1) Programs and the Complexity of Human Mental Processes

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

   2) Artificial Intelligence Is an Engineering Discipline

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

   3) A Sceptical View of Artificial Intelligence

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

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

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

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

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

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

   6) The Meaning of a Symbolic Description

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

   7) The Principle of Artificial Intelligence

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

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

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

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

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

    10) There Are Many Types of Reasoning

   There are many different kinds of reasoning one might imagine:

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

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

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

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

    12) The Synthesis of Man and Machine

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

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

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

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

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

    15) Four Kinds of Artificial Intelligence

   We might distinguish among four kinds of AI.

   ♦ Nonpsychological AI

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

   ♦ Weak Psychological AI

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

   ♦ Strong Psychological AI

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

   ♦ Suprapsychological AI

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

    16) Determination of Relevance of Rules in Particular Contexts

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

    17) Form and Content Are Not Fundamentally Different

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

    18) The Assumption That the Mind Is a Formal System

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

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

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

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

    20) Mathematical Logic Provides the Basis for Theory in AI

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

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

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

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

    22) Definitions of Artificial Intelligence

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

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

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

    24) Computers Will Not Always Be Inferior to Human Brains

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

model

1) модель; образец || моделировать; создавать по образцу

2) схема ( расчётная или эквивалентная)

3) метал. шаблон

4) метал. реплика

5) слепок; лепнина || лепить

6) форма || формовать

7) образец ( одежды)

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abstract model
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advection model
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ageostrophic model
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analog model
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analytical model
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atmospheric dispersion model
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atomic model
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band model
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barotropic model
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behavioral model
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biochemical cycling model
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bottom-end model
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bowl model
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Bragg bubble model
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breadboard model
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bulk-freezing model
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cammed model
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car model
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channel operation model
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cognitive model
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computational model
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computation model
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computer model
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conceptual model
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console model
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consulting model
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coupled air/ocean model
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damage model
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data model
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dead-reckoned model
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decoupled model
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deformation model
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descriptive model
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design model
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deterministic model
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device model
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directional numerical model
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discrete model
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dislocation model of twinning
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dynamic model
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dynamical electrical cloud model
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electric model
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energy supply model
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energy-balance model
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entry-level model
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equilibrium slip model
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experimental model
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external-reference model
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fault model
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fine-mesh model
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finite element model
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fixed-bed model
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flat Earth model
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FMS model
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frozen state model
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full-scale model
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functional model
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general circulation model
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geochemical cycling model
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geostatistical orebody model
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graphics model
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graphic model
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gross-level model
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group model
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heuristic model
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high-end model
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highly parameterized model
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homogeneous equilibrium model
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horizontal model
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hydraulic scale model
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hydrological cycling model
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hypothesize model
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image model
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inviscid atmospheric model
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ionospheric model
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irregular-grid model
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jazz model
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large-scale model
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large-signal device model
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Leontief's model
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Leontief model
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limited-area model
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linear model
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linearized model
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long-range transport model
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low-end model
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low-volume model
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lucky-electron model
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macrolevel model
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master die model
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master model
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mathematical model
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mesogrid model
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meteorologically validated model
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microlevel model
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mine model
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model of computation
-
movable nested-mesh model
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multiasperity model
-
n-equation flow model
-
nested-mesh model
-
network model
-
noise model
-
orthogonal flute model
-
photoelastic model
-
pilot model
-
plotting model
-
point model
-
prediction model
-
predictive model
-
preproduction model
-
primitive equation model
-
probabilistic model
-
probability model
-
projective model
-
propagation model
-
prototype model
-
quasi-linear model
-
quasi-solenoidal model
-
radiative-convective model
-
rain-out model
-
reference model
-
relational model
-
relative model
-
reliability model
-
research model
-
river-basin simulation model
-
sampled-data model
-
scaled model
-
scale model
-
sediment movement model
-
self-correcting model
-
semiscale model
-
simulation model
-
skeleton model
-
slip model
-
small-signal device model
-
software model
-
space-independent model
-
spectral model
-
spectral transform model
-
spherical Earth model
-
stability model
-
state-space model
-
statistical model
-
steady-state model
-
stochastic model
-
stochastic sequential model
-
subsynoptic model
-
symbolic-form model
-
table model
-
test model
-
thermal model
-
time-averaged model
-
time-invariant model
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time-varying model
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traffic model
-
transistor model
-
tribometric model
-
two-dimensional model
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two-fluid model
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urn model
-
vertical model
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vertically exaggerated model
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water allocation model
-
water management model
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water system operation model
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wave spectral model
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weather-dependent yield model
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wire model
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wireframe model
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world model

trademark

(™; T.M.; tm)

марк., юр. товарний знак; торговий знак; торгова марка; фірмовий знак; фабрична марка; виробничий знак

специфічний знак у формі символу, графічного позначення фірми (logo), назви, букв, ескіза, заклику (slogan) і т. ін., що ототожнює його з певним продуктом (product), послугою (service¹) або організацією і тим відокремлює від продуктів конкурентів; ♦ торговий знак забезпечений правовим захистом, що дає власникові виключне право ним користуватись, а також є видом інтелектуальної власності (intellectualproperty) та належить до категорії нематеріальних активів (intangible assets); серед найбільш популярних торгових знаків: графічний знак Олімпіади, букви BMW — відома марка авто; назва Microsoft — специфічні комп'ютерні програмні засоби

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abstract trademark абстрактний товарний знак; active trademark чинний товарний знак • використовуваний товарний знак; altered trademark змінений товарний знак • товарний знак із змінами; amended trademark змінений товарний знак • товарний знак із змінами; arbitrary trademark умовний товарний знак; associated trademarks об'єднані товарні знаки; circle trademark товарний знак у вигляді кола; collective trademark колективний товарний знак; combined trademark об'єднаний товарний знак; computerized trademark товарний знак покоління комп'ютерів; corporate trademark фірмовий товарний знак; descriptive trademark описовий товарний знак; distinctive trademark розпізнавальний товарний знак; famous trademark загальновідомий товарний знак; federally-registered trademark федеральний товарний знак; figurative trademark зображальний товарний знак; figure trademark цифровий товарний знак • зображальний товарний знак; forged trademark підроблений торговий знак • контрафактний товарний знак; imitated trademark імітоварний товарний знак; infringed trademark товарний знак, права якого порушені; international trademark міжнародний товарний знак; jointly owned trademark товарний знак спільного володіння; legitimate trademark товарний знак, що охороняється законом; letter trademark товарний знак у вигляді літер; monogram trademark товарний знак у вигляді монограми • знак-монограма; native trademark місцевий товарний знак; obsolete trademark застарілий товарний знак; official trademark офіційний товарний знак; old-fashioned trademark старомодний товарний знак; persuasive trademark переконливий товарний знак; pharmaceutical trademark товарний знак фармацевтичного виробу; pictorial trademark товарний знак у вигляді зображення; printed trademark друкований товарний знак; prospective trademark потенційний товарний знак; recognized trademark визнаний товарний знак; registered trademark зареєстрований товарний знак; service trademark товарний знак послуги; signature trademark товарний знак у вигляді підпису; similar trademarks подібні товарні знаки; sketchy trademark контурний товарний знак; sophisticated trademark ускладнений товарний знак; sound trademark звуковий товарний знак; strong trademark ефективний товарний знак; stylized trademark стилізований товарний знак; symbolic trademark товарний знак із використанням символу; technical trademark технічний товарний знак; three-dimentional trademark об'ємний товарний знак; two-dimensional trademark двовимірний товарний знак; uniform trademarks однакові товарні знаки; unregistered trademark незареєстрований торговий знак; visual trademark візуальний товарний знак; weak trademark неефективний товарний знак; well-known trademark загальновідомий товарний знак; world-renowned trademark визнаний у світі товарний знак; word trademark словесний товарний знак

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an infringement upon a trademark порушення права товарного знака; registration of a trademark реєстрація товарного знака; trademarks act закон про товарні знаки • акт про товарні знаки; trademark agreement угода про товарні знаки; trademark application заява на реєстрацію товарного знака; trademark certificate свідоцтво на товарний знак; trademark design ескіз товарного знака • зразок товарного знака • проект товарного знака; trademark law закон про товарний знак; trademark protection захист товарного знака; trademark registration реєстрація товарного знака; to hold a trademark бути власником товарного знака; to identify by trademark встановлювати/встановити за товарним знаком; to own a trademark бути власником товарного знака

trademark ‡ A. assets¹ (383)

пор. copyright

пор. patent

пор. brand

* * *

торговельна марка; торговельний знак; фабрична марка