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Source

Knowledge organization in the 21st century: between historical patterns and future prospects. Proceedings of the Thirteenth International ISKO Conference 19-22 May 2014, Kraków, Poland. Ed.: Wieslaw Babik

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Date

17. 2.2018 18:22:25

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Source

Knowledge organization for a global learning society: Proceedings of the 9th International ISKO Conference, 4-7 July 2006, Vienna, Austria. Hrsg.: G. Budin, C. Swertz u. K. Mitgutsch

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Source

Cataloging and classification quarterly. 21(1995) no.2, S.19-22

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Pages

S.19-22

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Source

Knowledge organization in the 21st century: between historical patterns and future prospects. Proceedings of the Thirteenth International ISKO Conference 19-22 May 2014, Kraków, Poland. Ed.: Wieslaw Babik

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Source

Knowledge organization in the 21st century: between historical patterns and future prospects. Proceedings of the Thirteenth International ISKO Conference 19-22 May 2014, Kraków, Poland. Ed.: Wieslaw Babik

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Date

8. 4.2015 16:22:13

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Date

8.11.2015 21:27:22

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Abstract

In the early 1960s, the Classification Research Group in London (q.v.) had reached the point in its experimentation with faceted classification systems where some kind of amalgamation of individual schemes was needed. They sought a unifying principle or set of principles that would provide a basis for a general system. The individual faceted schemes would not merge; what was central to one subject was fringe to another, but the fringes did not coalesce. In looking farther afield, they discovered the theory of "integrative levels" set forth by James K. Feibleman, Chairman and Professor of Philosophy at Tulane University until 1969 and author of forty-five books and more than 175 articles in various fields of philosophy. Feibleman's research concerned the development of the sciences considered in terms of an organizing principle. In the physical sciences, one Gould begin with subparticles and work up to atoms, molecules, and molecular assemblages, interpolating the biological equivalents. Feibleman separates the various levels by use of a "no return" device: "each level organizes the level or levels below it plus one emergent quality." The process is not reversible without loss of identity. A dog, in his system, is no longer a dog when it has been run over by a car; the smashed parts cannot be put together again to function as a dog. The theory of integrative levels is an interesting one. The levels from subparticles to clusters of galaxies or from nuclei to organisms are relatively clearly defined. A discipline, such as any of the ones comprising the "hard sciences," is made up of integrative levels. Research is cumulative so that scholars are ready to contribute when very young. Classification in these fields can make good use of the theory of integrative levels-in fact it should do so. It would appear that the method is more difficult to apply in the social sciences and humanities. This appearance may, however, be superficial. Almost all past happenings are irrevocable; one cannot recall the French Revolution and re-fight it. Any academic discipline that moves an over time does not usually return to an earlier position, even when there are schools of thought involved. Philosophy may have "neo-" this or that, but the subsequent new is not the same as the previous new. One has only to look at the various kinds of neo-Platonists that arise from time to time to realize that. Physical science recognizes a series of paradigms in changing its methodology over time and a similar situation may also turn out to be true in cognitive science." If this should turn out to be the case, integrative levels would probably have a part in that field as weIl.

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Date

12. 9.2004 17:22:35

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Date

7.11.2008 15:22:04

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Abstract

Very interesting experimental work was done by Douglas Foskett and other British classificationists during the fifteen-year period following the end of World War II. The research was effective in demonstrating that it was possible to make very sophisticated classification systems for virtually any subject-systems suitable for experts and for the general user needing a detailed subject classification. The success of these special systems led to consideration of the possibility of putting them together to form a new general classification system. To do such a thing would require a general, overall framework of some kind, since systems limited to a special subject are easier to construct because one does not have to worry about including all of the pertinent facets needed for a general system. Individual subject classifications do not automatically coalesce into a general pattern. For example, what is central to one special classification might be fringe in another or in several others. Fringe terminologies may not coincide in terms of logical relationships. Homographs and homonyms may not rear their ugly heads until attempts at merger are made. Foskett points out that even identifying a thing in terms of a noun or verb involves different assumptions in approach. For these and other reasons, it made sense to look for existing work in fields where the necessary framework already existed. Foskett found the rudiments of such a system in a number of writings, culminating in a logical system called "integrative levels" suggested by James K. Feibleman (q.v.). This system consists of a set of advancing conceptual levels relating to the apparent organization of nature. These levels are irreversible in that if one once reached a certain level there was no going back. Foskett points out that with higher levels and greater complexity in structure the analysis needed to establish valid levels becomes much more difficult, especially as Feibleman stipulates that a higher level must not be reducible to a lower one. (That is, one cannot put Humpty Dumpty together again.) Foskett is optimistic to the extent of suggesting that references from level to level be made upwards, with inductive reasoning, a system used by Derek Austin (q.v.) for making reference structures in PRECIS. Though the method of integrative levels so far has not been used successfully with the byproducts of human social behavior and thought, so much has been learned about these areas during the past twenty years that Foskett may yet be correct in his optimism. Foskett's name has Jong been associated with classification in the social sciences. As with many of the British classificationists included in this book, he has been a member of the Classification Research Group for about forty years. Like the others, he continues to contribute to the field.

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Footnote

Rez. in: KO 36(2009) no.1, S.62-63 (K. La Barre): "This special issue of Axiomathes presents an ambitious dual agenda. It attempts to highlight aspects of facet analysis (as used in LIS) that are shared by cognate approaches in philosophy, psychology, linguistics and computer science. Secondarily, the issue aims to attract others to the study and use of facet analysis. The authors represent a blend of lifetime involvement with facet analysis, such as Vickery, Broughton, Beghtol, and Dahlberg; those with well developed research agendas such as Tudhope, and Priss; and relative newcomers such as Gnoli, Cheti and Paradisi, and Slavic. Omissions are inescapable, but a more balanced issue would have resulted from inclusion of at least one researcher from the Indian school of facet theory. Another valuable addition might have been a reaction to the issue by one of the chief critics of facet analysis. Potentially useful, but absent, is a comprehensive bibliography of resources for those wishing to engage in further study, that now lie scattered throughout the issue. Several of the papers assume relative familiarity with facet analytical concepts and definitions, some of which are contested even within LIS. Gnoli's introduction (p. 127-130) traces the trajectory, extensions and new developments of this analytico- synthetic approach to subject access, while providing a laundry list of cognate approaches that are similar to facet analysis. This brief essay and the article by Priss (p. 243-255) directly addresses this first part of Gnoli's agenda. Priss provides detailed discussion of facet-like structures in computer science (p. 245- 246), and outlines the similarity between Formal Concept Analysis and facets. This comparison is equally fruitful for researchers in computer science and library and information science. By bridging into a discussion of visualization challenges for facet display, further research is also invited. Many of the remaining papers comprehensively detail the intellectual heritage of facet analysis (Beghtol; Broughton, p. 195-198; Dahlberg; Tudhope and Binding, p. 213-215; Vickery). Beghtol's (p. 131-144) examination of the origins of facet theory through the lens of the textbooks written by Ranganathan's mentor W.C.B. Sayers (1881-1960), Manual of Classification (1926, 1944, 1955) and a textbook written by Mills A Modern Outline of Classification (1964), serves to reveal the deep intellectual heritage of the changes in classification theory over time, as well as Ranganathan's own influence on and debt to Sayers.