form-function relation

Mind

   1) To Know the Different Operations of the Mind

   It becomes, therefore, no inconsiderable part of science... to know the different operations of the mind, to separate them from each other, to class them under their proper heads, and to correct all that seeming disorder in which they lie involved when made the object of reflection and inquiry.... It cannot be doubted that the mind is endowed with several powers and faculties, that these powers are distinct from one another, and that what is really distinct to the immediate perception may be distinguished by reflection and, consequently, that there is a truth and falsehood which lie not beyond the compass of human understanding. (Hume, 1955, p. 22)

   2) The Mind Is Furnished by Experience

   Let us then suppose the mind to be, as we say, white Paper, void of all Characters, without any Ideas: How comes it to be furnished? Whence comes it by that vast store, which the busy and boundless Fancy of Man has painted on it, with an almost endless variety? Whence has it all the materials of Reason and Knowledge? To this I answer, in one word, from Experience. (Locke, quoted in Herrnstein & Boring, 1965, p. 584)

   3) Mythical Thought Is as Rigorous as That of Modern Science

   The kind of logic in mythical thought is as rigorous as that of modern science, and... the difference lies, not in the quality of the intellectual process, but in the nature of things to which it is applied.... Man has always been thinking equally well; the improvement lies, not in an alleged progress of man's mind, but in the discovery of new areas to which it may apply its unchanged and unchanging powers. (Leґvi-Strauss, 1963, p. 230)

   4) The Mind Has Nothing But Itself to Know Itself

   MIND. A mysterious form of matter secreted by the brain. Its chief activity consists in the endeavor to ascertain its own nature, the futility of the attempt being due to the fact that it has nothing but itself to know itself with. (Bierce, quoted in Minsky, 1986, p. 55)

   5) To Know Is to Represent Accurately

   [Philosophy] understands the foundations of knowledge and it finds these foundations in a study of man-as-knower, of the "mental processes" or the "activity of representation" which make knowledge possible. To know is to represent accurately what is outside the mind, so to understand the possibility and nature of knowledge is to understand the way in which the mind is able to construct such representation.... We owe the notion of a "theory of knowledge" based on an understanding of "mental processes" to the seventeenth century, and especially to Locke. We owe the notion of "the mind" as a separate entity in which "processes" occur to the same period, and especially to Descartes. We owe the notion of philosophy as a tribunal of pure reason, upholding or denying the claims of the rest of culture, to the eighteenth century and especially to Kant, but this Kantian notion presupposed general assent to Lockean notions of mental processes and Cartesian notions of mental substance. (Rorty, 1979, pp. 3-4)

   6) The Question of Mind in Relation to Machine

   Under pressure from the computer, the question of mind in relation to machine is becoming a central cultural preoccupation. It is becoming for us what sex was to Victorians-threat, obsession, taboo, and fascination. (Turkle, 1984, p. 313)

   7) Understanding the Mind Remains as Resistant to Neurological as to Cognitive Analyses

   Recent years have been exciting for researchers in the brain and cognitive sciences. Both fields have flourished, each spurred on by methodological and conceptual developments, and although understanding the mechanisms of mind is an objective shared by many workers in these areas, their theories and approaches to the problem are vastly different....

   Early experimental psychologists, such as Wundt and James, were as interested in and knowledgeable about the anatomy and physiology of the nervous system as about the young science of the mind. However, the experimental study of mental processes was short-lived, being eclipsed by the rise of behaviorism early in this century. It was not until the late 1950s that the signs of a new mentalism first appeared in scattered writings of linguists, philosophers, computer enthusiasts, and psychologists.

   In this new incarnation, the science of mind had a specific mission: to challenge and replace behaviorism. In the meantime, brain science had in many ways become allied with a behaviorist approach.... While behaviorism sought to reduce the mind to statements about bodily action, brain science seeks to explain the mind in terms of physiochemical events occurring in the nervous system. These approaches contrast with contemporary cognitive science, which tries to understand the mind as it is, without any reduction, a view sometimes described as functionalism.

   The cognitive revolution is now in place. Cognition is the subject of contemporary psychology. This was achieved with little or no talk of neurons, action potentials, and neurotransmitters. Similarly, neuroscience has risen to an esteemed position among the biological sciences without much talk of cognitive processes. Do the fields need each other?... [Y]es because the problem of understanding the mind, unlike the wouldbe problem solvers, respects no disciplinary boundaries. It remains as resistant to neurological as to cognitive analyses. (LeDoux & Hirst, 1986, pp. 1-2)

   8) Approaches to the Study of the Mind

   Since the Second World War scientists from different disciplines have turned to the study of the human mind. Computer scientists have tried to emulate its capacity for visual perception. Linguists have struggled with the puzzle of how children acquire language. Ethologists have sought the innate roots of social behaviour. Neurophysiologists have begun to relate the function of nerve cells to complex perceptual and motor processes. Neurologists and neuropsychologists have used the pattern of competence and incompetence of their brain-damaged patients to elucidate the normal workings of the brain. Anthropologists have examined the conceptual structure of cultural practices to advance hypotheses about the basic principles of the mind. These days one meets engineers who work on speech perception, biologists who investigate the mental representation of spatial relations, and physicists who want to understand consciousness. And, of course, psychologists continue to study perception, memory, thought and action.

... [W]orkers in many disciplines have converged on a number of central problems and explanatory ideas. They have realized that no single approach is likely to unravel the workings of the mind: it will not give up its secrets to psychology alone; nor is any other isolated discipline-artificial intelligence, linguistics, anthropology, neurophysiology, philosophy-going to have any greater success. (Johnson-Laird, 1988, p. 7)

asymptotic

1) асимптотический
2) асимптотика
3) полусходящийся ∙ arcwise asymptotic value ≈ дуговое асимптотическое значение asymptotic confidence interval ≈ асимптотический доверительный интервал asymptotic equipartition property ≈ свойство асимптотической равнораспределенности asymptotic essential component ≈ асимптотическая существенная компонента asymptotic expansion formula ≈ формула асимптотического разложения ( функции) asymptotic passage theorem ≈ теорема об асимптотическом поведении переходных вероятностей asymptotic power series expansion ≈ разложение в асимптотический степенной ряд asymptotic sequential design ≈ асимптотический последовательный план basic asymptotic estimate ≈ основная асимптотическая оценка central asymptotic problem ≈ центральная асимптотическая проблема doubly asymptotic triangle ≈ дважды асимптотический треугольник first asymptotic distribution ≈ первое предельное распределение multiply asymptotic series ≈ многократно асимптотический ряд negatively asymptotic point ≈ отрицательно асимптотическая точка pointwise asymptotic value ≈ точечное асимптотическое значение positively asymptotic point ≈ положительно асимптотическая точка simple asymptotic sieve ≈ простое асимптотическое решето trebly asymptotic triangle ≈ трижды асимптотический треугольник uniform asymptotic representation ≈ равномерное асимптотическое представление virtually asymptotic net ≈ виртуально асимптотическая сеть - asymptotic expression - asymptotic fairness - asymptotic fibration - asymptotic field - asymptotic flatness - asymptotic form - asymptotic formula - asymptotic frequency - asymptotic function - asymptotic geodesic - asymptotic growth - asymptotic helicity - asymptotic hexagon - asymptotic hyperplane - asymptotic inadmissibility - asymptotic independence - asymptotic inequality - asymptotic information - asymptotic integration - asymptotic interpolation - asymptotic invariance - asymptotic iteration - asymptotic law - asymptotic learning - asymptotic likelihood - asymptotic limit - asymptotic line - asymptotic linearity - asymptotic mean - asymptotic method - asymptotic mimimum - asymptotic minimax - asymptotic model - asymptotic moment - asymptotic nature - asymptotic negligibility - asymptotic net - asymptotic normalcy - asymptotic normality - asymptotic operator - asymptotic optimality - asymptotic optimum - asymptotic order - asymptotic parabola - asymptotic parallel - asymptotic path - asymptotic period - asymptotic phase - asymptotic plane - asymptotic point - asymptotic power - asymptotic prediction - asymptotic prime - asymptotic probability - asymptotic problem - asymptotic property - asymptotic proportionality - asymptotic ratio - asymptotic recurrence - asymptotic region - asymptotic relation - asymptotic representation - asymptotic resolvent - asymptotic restriction - asymptotic result - asymptotic root - asymptotic scaling - asymptotic semiform - asymptotic sequence - asymptotic series - asymptotic set - asymptotic shape - asymptotic sieve - asymptotic simplicity - asymptotic slope - asymptotic smallness - asymptotic solution - asymptotic spot - asymptotic stability - asymptotic state - asymptotic sufficiency - asymptotic sum - asymptotic surface - asymptotic symbol - asymptotic symmetry - asymptotic technique - asymptotic test - asymptotic theor - asymptotic theorem - asymptotic tract - asymptotic trajectory - asymptotic transformation - asymptotic triangle - asymptotic twistor - asymptotic unbiasedness - asymptotic value - asymptotic variable - asymptotic variance - asymptotic vector - isothermally asymptotic

асимптотический

asymptotic асимптотический

projective

проективный, проекционный allowable projective resolution ≈ допустимая проективная резольвента atomic projective geometry ≈ атомическая проективная геометрия bounding projective chain ≈ ограничивающая проективная цепь centrally projective connectedness ≈ центропроективная связность completely projective module ≈ вполне проективный модуль exceptional projective line ≈ исключительная проективная прямая faithfully projective module ≈ вполне проективный модуль faithfully projective object ≈ строго проективный объект generic projective transformation ≈ общее проективное преобразование n-way projective space ≈ n-кратное проектируемое пространство object of projective connectivity ≈ объект проективной связности one-way projective space ≈ однократное проективное пространство point of projective plane ≈ точка проективной плоскости projective coordinate system ≈ проективная система координат projective curvature tensor ≈ тензор проективной кривизны projective geometry code ≈ проективно-геомет-рический код projective module group ≈ группа проективных модулей pure projective geometry ≈ чисто проективная геометрия pure projective group ≈ сервантно проективная группа quasipure projective group ≈ квазисервантно проективная группа quaternion projective space ≈ кватернионное проективное пространство relative projective object ≈ относительно проективный объект right projective module ≈ правый проективный модуль shunted projective space ≈ стянутое проективное пространство tensor of projective curvature ≈ тензор проективной кривизны thread of projective spectrum ≈ нить проекционного спектра totally projective group ≈ тотально проективная группа weakly projective complex ≈ слабо проективный комплекс weakly projective deformation ≈ слабо проективная деформация weakly projective module ≈ слабо проективный модуль - projective connection - projective connectivit - projective convergence - projective convexity - projective coordinates - projective coordinatization - projective correlation - projective correspondence - projective covariant - projective cover - projective cubic - projective curvature - projective cycle - projective deformation - projective determinacy - projective dilatation - projective dimension - projective element - projective embedding - projective envelope - projective equivalence - projective extremum - projective fibration - projective form - projective framing - projective function - projective game - projective generalization - projective generation - projective geometry - projective group - projective half-plane - projective hierarchy - projective homogeneity - projective homology - projective homomorphism - projective homothety - projective hyperplane - projective interval - projective invariance - projective invariant - projective isomorphism - projective lattice - projective lifting - projective limit - projective manifold - projective maximum - projective metric - projective model - projective module - projective morphism - projective motion - projective normal - projective object - projective operation - projective operator - projective ordering - projective parameter - projective pencil - projective plane - projective point - projective presheaf - projective quadric - projective quartic - projective quotient - projective relation - projective relational - projective representation - projective resolution - projective resolvent - projective scale - projective scheme - projective semiplane - projective set - projective sheaf - projective shift - projective space - projective spectrum - projective sphere - projective spray - projective structure - projective subdivision - projective sublimit - projective subspace - projective symmetry - projective system - projective tensor - projective topology - projective transformation - projective translation - projective transvection - projective tree - projective triangle - projective twistor - projective variety - projective zero - pure projective - quasipure projective - recursively projective - weakly projective (математика) проективный - * geometry проективная геометрия - * plane проективная плоскость выдающийся, выступающий

skew-symmetric

1) кососимметричный
2) антисимметрический
3) антисимметричный
4) кососимметрический ∙ space of skew-symmetric tensors ≈ пространство кососимметрических тензоров - skew-symmetric affinor - skew-symmetric determinant - skew-symmetric endomorphism - skew-symmetric form - skew-symmetric function - skew-symmetric functional - skew-symmetric kernel - skew-symmetric matrix - skew-symmetric object - skew-symmetric operator - skew-symmetric pairing - skew-symmetric polynomial - skew-symmetric product - skew-symmetric relation - skew-symmetric tensor - skew-symmetric transformation

Memory

   1) A Unitary Search Process for All the Phenomena of Memory

   To what extent can we lump together what goes on when you try to recall: (1) your name; (2) how you kick a football; and (3) the present location of your car keys? If we use introspective evidence as a guide, the first seems an immediate automatic response. The second may require constructive internal replay prior to our being able to produce a verbal description. The third... quite likely involves complex operational responses under the control of some general strategy system. Is any unitary search process, with a single set of characteristics and inputoutput relations, likely to cover all these cases? (Reitman, 1970, p. 485)

   2) Semantic Memory Is a Mental Thesaurus

   [Semantic memory] Is a mental thesaurus, organized knowledge a person possesses about words and other verbal symbols, their meanings and referents, about relations among them, and about rules, formulas, and algorithms for the manipulation of these symbols, concepts, and relations. Semantic memory does not register perceptible properties of inputs, but rather cognitive referents of input signals. (Tulving, 1972, p. 386)

   3) The Development of Mnemonic Codes

   The mnemonic code, far from being fixed and unchangeable, is structured and restructured along with general development. Such a restructuring of the code takes place in close dependence on the schemes of intelligence. The clearest indication of this is the observation of different types of memory organisation in accordance with the age level of a child so that a longer interval of retention without any new presentation, far from causing a deterioration of memory, may actually improve it. (Piaget & Inhelder, 1973, p. 36)

   4) The Logic of Some Memory Theorization Is of Dubious Worth in the History of Psychology

   If a cue was effective in memory retrieval, then one could infer it was encoded; if a cue was not effective, then it was not encoded. The logic of this theorization is "heads I win, tails you lose" and is of dubious worth in the history of psychology. We might ask how long scientists will puzzle over questions with no answers. (Solso, 1974, p. 28)

   5) The Constituent Elements of Memory Theory

   We have iconic, echoic, active, working, acoustic, articulatory, primary, secondary, episodic, semantic, short-term, intermediate-term, and longterm memories, and these memories contain tags, traces, images, attributes, markers, concepts, cognitive maps, natural-language mediators, kernel sentences, relational rules, nodes, associations, propositions, higher-order memory units, and features. (Eysenck, 1977, p. 4)

   6) The Problem with the Memory Metaphor

   The problem with the memory metaphor is that storage and retrieval of traces only deals [ sic] with old, previously articulated information. Memory traces can perhaps provide a basis for dealing with the "sameness" of the present experience with previous experiences, but the memory metaphor has no mechanisms for dealing with novel information. (Bransford, McCarrell, Franks & Nitsch, 1977, p. 434)

   7) The Results of a Hundred Years of the Psychological Study of Memory Are Somewhat Discouraging

   The results of a hundred years of the psychological study of memory are somewhat discouraging. We have established firm empirical generalisations, but most of them are so obvious that every ten-year-old knows them anyway. We have made discoveries, but they are only marginally about memory; in many cases we don't know what to do with them, and wear them out with endless experimental variations. We have an intellectually impressive group of theories, but history offers little confidence that they will provide any meaningful insight into natural behavior. (Neisser, 1978, pp. 12-13)

   8) The Structure and Function of a Schema in Memory

   A schema, then is a data structure for representing the generic concepts stored in memory. There are schemata representing our knowledge about all concepts; those underlying objects, situations, events, sequences of events, actions and sequences of actions. A schema contains, as part of its specification, the network of interrelations that is believed to normally hold among the constituents of the concept in question. A schema theory embodies a prototype theory of meaning. That is, inasmuch as a schema underlying a concept stored in memory corresponds to the mean ing of that concept, meanings are encoded in terms of the typical or normal situations or events that instantiate that concept. (Rumelhart, 1980, p. 34)

   9) Competence and Performance in Theories of Memory

   Memory appears to be constrained by a structure, a "syntax," perhaps at quite a low level, but it is free to be variable, deviant, even erratic at a higher level....

   Like the information system of language, memory can be explained in part by the abstract rules which underlie it, but only in part. The rules provide a basic competence, but they do not fully determine performance. (Campbell, 1982, pp. 228, 229)

    10) Metaphors of Memory

   When people think about the mind, they often liken it to a physical space, with memories and ideas as objects contained within that space. Thus, we speak of ideas being in the dark corners or dim recesses of our minds, and of holding ideas in mind. Ideas may be in the front or back of our minds, or they may be difficult to grasp. With respect to the processes involved in memory, we talk about storing memories, of searching or looking for lost memories, and sometimes of finding them. An examination of common parlance, therefore, suggests that there is general adherence to what might be called the spatial metaphor. The basic assumptions of this metaphor are that memories are treated as objects stored in specific locations within the mind, and the retrieval process involves a search through the mind in order to find specific memories....

   However, while the spatial metaphor has shown extraordinary longevity, there have been some interesting changes over time in the precise form of analogy used. In particular, technological advances have influenced theoretical conceptualisations.... The original Greek analogies were based on wax tablets and aviaries; these were superseded by analogies involving switchboards, gramophones, tape recorders, libraries, conveyor belts, and underground maps. Most recently, the workings of human memory have been compared to computer functioning... and it has been suggested that the various memory stores found in computers have their counterparts in the human memory system. (Eysenck, 1984, pp. 79-80)

    11) Comparison of Primary Memory and Secondary Memory

   Primary memory [as proposed by William James] relates to information that remains in consciousness after it has been perceived, and thus forms part of the psychological present, whereas secondary memory contains information about events that have left consciousness, and are therefore part of the psychological past. (Eysenck, 1984, p. 86)

    12) Semantic Memory and Episodic Memory

   Once psychologists began to study long-term memory per se, they realized it may be divided into two main categories.... Semantic memories have to do with our general knowledge about the working of the world. We know what cars do, what stoves do, what the laws of gravity are, and so on. Episodic memories are largely events that took place at a time and place in our personal history. Remembering specific events about our own actions, about our family, and about our individual past falls into this category. With amnesia or in aging, what dims... is our personal episodic memories, save for those that are especially dear or painful to us. Our knowledge of how the world works remains pretty much intact. (Gazzaniga, 1988, p. 42)

    13) The Relation of Memory to Thinking

   The nature of memory... provides a natural starting point for an analysis of thinking. Memory is the repository of many of the beliefs and representations that enter into thinking, and the retrievability of these representations can limit the quality of our thought. (Smith, 1990, p. 1)