knowledge+processing

обработка информации с использованием знаний

Information technology: knowledge-based processing

обработка информационного представления знаний

Engineering: knowledge information processing

обработка информационного представления значений

Makarov: knowledge information processing

система обработки данных базы знаний

Automation: knowledge information processing system

система обработки информационных знаний

Engineering: knowledge information processing system

обработка , основанная на знаниях

Robots: (информации) knowledge-based processing

обработка данных на базе знаний

Automation: (накопленных) knowledge-based processing (напр. в искусственном интеллекте робота)

находить непосредственное применение в

Находить непосредственное применение в-- A number of issues in knowledge representation have direct import for natural language processing.

служить доказательством

Служить доказательством-- The area of user intention evidences the synergy of knowledge representation and natural language processing.

работа со знаниями

( в экспертных системах) knowledge information processing

данные данн·ые

(сведения) data, facts, information; (цифровые) figures; (полученные) findings

дополнять в соответствии с новыми данные ыми — to bring up to date

изучать данные — to examine data

представлять данные — to furnish data

приводить данные — to cite data

сообщать данные — to report data

сравнивать данные — to compare data

нет никаких данных предполагать — there are no grounds to suppose

анкетные данные — biographical particulars

детализированные / подробные данные — detailed data

дополнительные данные — follow-up data

исторические данные — historical evidence

исходные / первоначальные данные — initial / primary data

итоговые данные — aggregates

недостаточные данные — insufficient data

необработанные данные — crude / raw data

неопровержимые данные — conclusive evidence

несовпадающие данные — discrepant data

обработанные данные — processed information; refined figures

общие данные — totals

окончательные данные — final data

основные данные — basic data

официальные данные — official data

по официальным данным — according to official data / figures / statistics

полные данные — complete data

по неполным данные ым — according to incomplete data

предварительные данные — tentative data

противоречивые данные — conflicting data

разведывательные данные — intelligence data

сводные данные — summary data

секретные данные — secret / classified information

обладать секретными данными — to possess inside knowledge

скорректированные данные — adjusted data

среднестатистические данные — average statistical data

уточнённые данные — specified data

цифровые данные — figures

экспериментальные данные — experimental data

данные за длительное время — long-term data

данные, имеющиеся в распоряжении — available data

данные наблюдений — observed data

надёжность данных — reliability of data

недостаточная надёжность данных — inadequacy of data

нехватка данных — insufficiency of data

оценка данных — appraisal of data

первоисточник данных — original sources of data

пробел в данных — gap in the data

сбор и обработка данных — collection and processing of data

отрасль отрасл·ь

branch, field

перерабатывающие отрасли — processing branches

потребляющие отрасли — consuming branches

отрасль знаний — branch / field of knowledge

отрасль науки — branch of science

отрасль производства — branch of production

отрасли, производящие предметы народного потребления — consumer goods industries

отрасль промышленности — branch of industry

ключевые / главные отрасли промышленности — key industries, key branches of industry

национализированные отрасли промышленности — nationalized industries / branches of industry

приоритетные отрасли промышленности — priority industries

сырьевые отрасли экономики — raw-material branches of economy

трудоёмкие отрасли промышленности — labour-intensive industries

отрасль экономики — branch / sector of economy

непроизводительные отрасли экономики — nonproductive branches of the economy

топливно сырьевые отрасли экономики — fuel and raw materials branches of economy

отрасль энергетики — power industries

подвергаться механической обработке

machine

механизмы обработки данных — machinery

машинная обработка — machine processing

направление обработки — machine direction

детали машинной обработки — machined parts

машина обработки знаний — knowledge machine

Owens, Michael Joseph

SUBJECT AREA: Agricultural and food technology, Domestic appliances and interiors

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b. 1 January 1859 Mason County, Virginia, USA

d. 27 December 1923 Toledo, Ohio, USA

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American inventor of the automatic glass bottle making machine.

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To assist the finances of a coal miner's family, Owens entered a glassworks at Wheeling, Virginia, at the tender age of 10, stoking coal into the "glory hole" or furnace where glass was resoftened at various stages of the hand-forming process. By the age of 15 he had become a glassblower.

In 1888 Owens moved to the glassworks of Edward Drummond Libbey at Toledo, Ohio, where within three months he was appointed Superintendent and, not long after, a branch manager. In 1893 Owens supervised the company's famous exhibit at the World's Columbian Exposition at Chicago. He had by then begun experiments that were to lead to the first automatic bottle-blowing machine. He first used a piston pump to suck molten glass into a mould, and then transferred the gathered glass over another mould into which the bottle was blown by reversing the pump. The first patents were taken out in 1895, followed by others incorporating improvements and culminating in the patent of 8 November 1904 for an essentially perfected machine. Eventually it was capable of producing four bottles a second, thus effecting a revolution in bottle making. Owens, with Libbey and others, set up the Owens Bottle Machine Company in 1903, which Owens himself managed from 1915 to 1919, becoming Vice-President from 1915 until his death. A plant was also established in Manchester in 1905.

Besides this, Owens and Libbey first assisted Irving W.Colburn with his experiments on the continuous drawing of flat sheet glass and then in 1912 bought the patents, forming the Owens-Libbey Sheet Glass Company. In all, Owens was granted forty-five US patents, mainly relating to the manufacture and processing of glass. Owens's undoubted inventive genius was hampered by a lack of scientific knowledge, which he made good by judicious consultation.

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Further Reading

1923, Michael J.Owens (privately printed) (a series of memorial articles reprinted from various sources).

G.S.Duncan, 1960, Bibliography of Glass, Sheffield: Society of Glass Manufacturers (cites references to Owens's papers and patents).

LRD

направление обработки

machine direction

механизмы обработки данных — machinery

машинная обработка — machine processing

детали машинной обработки — machined parts

машина обработки знаний — knowledge machine

обработка на машинах — machine manipulation

ἔννοια

ἔννοια, ας, ἡ the content of mental processing, thought, knowledge, insight, (so esp. in the philosophers: Pla., Phd. 73c; Aristot., EN 9, 11, 1171a, 31f; 10, 10, 1179b, 13f; Epict. 2, 11, 2 and 3 al.; Plut., Mor. 900a; Diog. L. 3, 79; T. Kellis 22, 4; Herm. Wr. 1, 1; Philo; but also outside philosophic contexts: X., An. 3, 1, 13; Diod S 20, 34, 6; PRein 7, 15 [II B.C.]; UPZ 19, 111; 110, 32 [all II B.C.]; Pr 1:4; 2:11 al.; Jos., Bell. 2, 517 and Ant. 14, 481; Test12Patr; TestSol 20:5 εἰς ἔννοιαν ἐλθεῖν; Just. Tat.; Ath.; ἔ. ἔχειν τοῦ θεοῦ Orig., C. Cels. 4, 96, 3; περὶ τοῦ δημιουργοῦ ἐ. 4, 26, 46; ἔ. τῶν νόμων Did., Gen. 113, 1) κ. ὑμεῖς τ. αὐτὴν ἔννοιαν ὁπλίσασθε arm yourselves also w. the same way of thinking 1 Pt 4:1; ἐννοεῖν ἔ. Dg 8:9. ἐδόκει γ[ὰρ ἑτε]ερογνωμονεῖν τῇ ἐκ[ε]ίν[ου ἐν]νοίᾳ (what was said) appeared to differ in sense from what he (the Redeemer) had in mind GMary 463, 9–11.—αὕτη ἡ ἀπό[ρ]ροια τῆ[ς ἐ]ννοίας, this emanation of the (divine) mind Ox 1081, 30f=SJCh 90, 7f; cp. Just., A I, 64, 5 πρώτην ἔννοιαν ἔφασαν τὴν Ἀθηνᾶν ‘they called Athena the first thought [of Zeus]’, sim. Helen as wife of Simon Magus 26, 3. Pl. (Jos., Ant. 6, 37; Just., D. 93, 1; Tat., Ath.) w. διαλογισμοί 1 Cl 21:3. W. ἐνθυμήσεις (Job 21:27 Sym.) Hb 4:12; 1 Cl 21:9. W. λογισμοί Pol 4:3.—B. 1212. DELG s.v. νόος. M-M. TW. Sv.

Creativity

   1) All Human Complex Problem Solving Is Creativity

   Put in this bald way, these aims sound utopian. How utopian they areor rather, how imminent their realization-depends on how broadly or narrowly we interpret the term "creative." If we are willing to regard all human complex problem solving as creative, then-as we will point out-successful programs for problem solving mechanisms that simulate human problem solvers already exist, and a number of their general characteristics are known. If we reserve the term "creative" for activities like discovery of the special theory of relativity or the composition of Beethoven's Seventh Symphony, then no example of a creative mechanism exists at the present time. (Simon, 1979, pp. 144-145)

   2) Artificial Intelligence Models of Creative Association

   Among the questions that can now be given preliminary answers in computational terms are the following: how can ideas from very different sources be spontaneously thought of together? how can two ideas be merged to produce a new structure, which shows the influence of both ancestor ideas without being a mere "cut-and-paste" combination? how can the mind be "primed," so that one will more easily notice serendipitous ideas? why may someone notice-and remember-something fairly uninteresting, if it occurs in an interesting context? how can a brief phrase conjure up an entire melody from memory? and how can we accept two ideas as similar ("love" and "prove" as rhyming, for instance) in respect of a feature not identical in both? The features of connectionist AI models that suggest answers to these questions are their powers of pattern completion, graceful degradation, sensitization, multiple constraint satisfaction, and "best-fit" equilibration.... Here, the important point is that the unconscious, "insightful," associative aspects of creativity can be explained-in outline, at least-by AI methods. (Boden, 1996, p. 273)

   3) Creative Innovation and Social Independence

   There thus appears to be an underlying similarity in the process involved in creative innovation and social independence, with common traits and postures required for expression of both behaviors. The difference is one of product-literary, musical, artistic, theoretical products on the one hand, opinions on the other-rather than one of process. In both instances the individual must believe that his perceptions are meaningful and valid and be willing to rely upon his own interpretations. He must trust himself sufficiently that even when persons express opinions counter to his own he can proceed on the basis of his own perceptions and convictions. (Coopersmith, 1967, p. 58)

   4) Ego Strength and Emotional Stability among Creative Geniuses

   he average level of ego strength and emotional stability is noticeably higher among creative geniuses than among the general population, though it is possibly lower than among men of comparable intelligence and education who go into administrative and similar positions. High anxiety and excitability appear common (e.g. Priestley, Darwin, Kepler) but full-blown neurosis is quite rare. (Cattell & Butcher, 1970, p. 315)

   5) Its Mundane Character

   he insight that is supposed to be required for such work as discovery turns out to be synonymous with the familiar process of recognition; and other terms commonly used in the discussion of creative work-such terms as "judgment," "creativity," or even "genius"-appear to be wholly dispensable or to be definable, as insight is, in terms of mundane and well-understood concepts. (Simon, 1989, p. 376)

   6) Mozart's Musical Ideas Came to Him in Polished Form

   From the sketch material still in existence, from the condition of the fragments, and from the autographs themselves we can draw definite conclusions about Mozart's creative process. To invent musical ideas he did not need any stimulation; they came to his mind "ready-made" and in polished form. In contrast to Beethoven, who made numerous attempts at shaping his musical ideas until he found the definitive formulation of a theme, Mozart's first inspiration has the stamp of finality. Any Mozart theme has completeness and unity; as a phenomenon it is a Gestalt. (Herzmann, 1964, p. 28)

   7) Scientific Theories and Works of Art Alike Originate in Fantasy

   Great artists enlarge the limits of one's perception. Looking at the world through the eyes of Rembrandt or Tolstoy makes one able to perceive aspects of truth about the world which one could not have achieved without their aid. Freud believed that science was adaptive because it facilitated mastery of the external world; but was it not the case that many scientific theories, like works of art, also originated in phantasy? Certainly, reading accounts of scientific discovery by men of the calibre of Einstein compelled me to conclude that phantasy was not merely escapist, but a way of reaching new insights concerning the nature of reality. Scientific hypotheses require proof; works of art do not. Both are concerned with creating order, with making sense out of the world and our experience of it. (Storr, 1993, p. xii)

   8) Self- Esteem and Creative Expression

   The importance of self-esteem for creative expression appears to be almost beyond disproof. Without a high regard for himself the individual who is working in the frontiers of his field cannot trust himself to discriminate between the trivial and the significant. Without trust in his own powers the person seeking improved solutions or alternative theories has no basis for distinguishing the significant and profound innovation from the one that is merely different.... An essential component of the creative process, whether it be analysis, synthesis, or the development of a new perspective or more comprehensive theory, is the conviction that one's judgment in interpreting the events is to be trusted. (Coopersmith, 1967, p. 59)

   9) Stages in Creative Problem- Solving

   In the daily stream of thought these four different stages [preparation; incubation; illumination or inspiration; and verification] constantly overlap each other as we explore different problems. An economist reading a Blue Book, a physiologist watching an experiment, or a business man going through his morning's letters, may at the same time be "incubating" on a problem which he proposed to himself a few days ago, be accumulating knowledge in "preparation" for a second problem, and be "verifying" his conclusions to a third problem. Even in exploring the same problem, the mind may be unconsciously incubating on one aspect of it, while it is consciously employed in preparing for or verifying another aspect. (Wallas, 1926, p. 81)

    10) The Bisociative Pattern of the Creative Synthesis

   he basic, bisociative pattern of the creative synthesis [is] the sudden interlocking of two previously unrelated skills, or matrices of thought. (Koestler, 1964, p. 121)

    11) The Earliest Stages in the Creative Process Involve a Commerce with Disorder

   Even to the creator himself, the earliest effort may seem to involve a commerce with disorder. For the creative order, which is an extension of life, is not an elaboration of the established, but a movement beyond the established, or at least a reorganization of it and often of elements not included in it. The first need is therefore to transcend the old order. Before any new order can be defined, the absolute power of the established, the hold upon us of what we know and are, must be broken. New life comes always from outside our world, as we commonly conceive that world. This is the reason why, in order to invent, one must yield to the indeterminate within him, or, more precisely, to certain illdefined impulses which seem to be of the very texture of the ungoverned fullness which John Livingston Lowes calls "the surging chaos of the unexpressed." (Ghiselin, 1985, p. 4)

    12) The Inner Life of the Creative Process

   New life comes always from outside our world, as we commonly conceive our world. This is the reason why, in order to invent, one must yield to the indeterminate within him, or, more precisely, to certain illdefined impulses which seem to be of the very texture of the ungoverned fullness which John Livingston Lowes calls "the surging chaos of the unexpressed." Chaos and disorder are perhaps the wrong terms for that indeterminate fullness and activity of the inner life. For it is organic, dynamic, full of tension and tendency. What is absent from it, except in the decisive act of creation, is determination, fixity, and commitment to one resolution or another of the whole complex of its tensions. (Ghiselin, 1952, p. 13)

    13) The Problem of What Impels the Creative Person

   [P]sychoanalysts have principally been concerned with the content of creative products, and with explaining content in terms of the artist's infantile past. They have paid less attention to examining why the artist chooses his particular activity to express, abreact or sublimate his emotions. In short, they have not made much distinction between art and neurosis; and, since the former is one of the blessings of mankind, whereas the latter is one of the curses, it seems a pity that they should not be better differentiated....

   Psychoanalysis, being fundamentally concerned with drive and motive, might have been expected to throw more light upon what impels the creative person that in fact it has. (Storr, 1993, pp. xvii, 3)

    14) Theories of Creative Thinking

   A number of theoretical approaches were considered. Associative theory, as developed by Mednick (1962), gained some empirical support from the apparent validity of the Remote Associates Test, which was constructed on the basis of the theory.... Koestler's (1964) bisociative theory allows more complexity to mental organization than Mednick's associative theory, and postulates "associative contexts" or "frames of reference." He proposed that normal, non-creative, thought proceeds within particular contexts or frames and that the creative act involves linking together previously unconnected frames.... Simonton (1988) has developed associative notions further and explored the mathematical consequences of chance permutation of ideas....

   Like Koestler, Gruber (1980; Gruber and Davis, 1988) has based his analysis on case studies. He has focused especially on Darwin's development of the theory of evolution. Using piagetian notions, such as assimilation and accommodation, Gruber shows how Darwin's system of ideas changed very slowly over a period of many years. "Moments of insight," in Gruber's analysis, were the culminations of slow long-term processes.... Finally, the information-processing approach, as represented by Simon (1966) and Langley et al. (1987), was considered.... [Simon] points out the importance of good problem representations, both to ensure search is in an appropriate problem space and to aid in developing heuristic evaluations of possible research directions.... The work of Langley et al. (1987) demonstrates how such search processes, realized in computer programs, can indeed discover many basic laws of science from tables of raw data.... Boden (1990a, 1994) has stressed the importance of restructuring the problem space in creative work to develop new genres and paradigms in the arts and sciences. (Gilhooly, 1996, pp. 243-244; emphasis in original)