Search (34 results, page 1 of 2)

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LCSH

Classification / Books

Subject

Classification / Books

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Abstract

This proposed new classification scheme is based on two main elements: hierarchism and binary theory. Hence, it is called Universal Binary Classification (UBC). Some advantages of this classification are highlighted including are subject heading development, construction of a thesaurus and all terms with meaningful features arranged in tabular form that can help researchers, through a semantic process, to find what they need. This classification scheme is fully consistent with the classification of knowledge. The classification of knowledge is also based on hierarchism and binary principle. Finally, a survey on randomly selected books in McLennan Library of McGill University is presented to compare the codes of this new classification with the currently employed Library of Congress Classification (LCC) numbers in the discipline of Library and Information Sciences.

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Date

1. 8.1996 22:01:00

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Date

1. 8.1996 22:01:00

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Date

6. 5.2017 18:46:22

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Abstract

Logic and the Organization of Information closely examines the historical and contemporary methodologies used to catalogue information objects-books, ebooks, journals, articles, web pages, images, emails, podcasts and more-in the digital era. This book provides an in-depth technical background for digital librarianship, and covers a broad range of theoretical and practical topics including: classification theory, topic annotation, automatic clustering, generalized synonymy and concept indexing, distributed libraries, semantic web ontologies and Simple Knowledge Organization System (SKOS). It also analyzes the challenges facing today's information architects, and outlines a series of techniques for overcoming them. Logic and the Organization of Information is intended for practitioners and professionals working at a design level as a reference book for digital librarianship. Advanced-level students, researchers and academics studying information science, library science, digital libraries and computer science will also find this book invaluable.

Footnote

Rez. in: J. Doc. 70(2014) no.4: "Books on the organization of information and knowledge, aimed at a library/information audience, tend to fall into two clear categories. Most are practical and pragmatic, explaining the "how" as much or more than the "why". Some are theoretical, in part or in whole, showing how the practice of classification, indexing, resource description and the like relates to philosophy, logic, and other foundational bases; the books by Langridge (1992) and by Svenonious (2000) are well-known examples this latter kind. To this category certainly belongs a recent book by Martin Frické (2012). The author takes the reader for an extended tour through a variety of aspects of information organization, including classification and taxonomy, alphabetical vocabularies and indexing, cataloguing and FRBR, and aspects of the semantic web. The emphasis throughout is on showing how practice is, or should be, underpinned by formal structures; there is a particular emphasis on first order predicate calculus. The advantages of a greater, and more explicit, use of symbolic logic is a recurring theme of the book. There is a particularly commendable historical dimension, often omitted in texts on this subject. It cannot be said that this book is entirely an easy read, although it is well written with a helpful index, and its arguments are generally well supported by clear and relevant examples. It is thorough and detailed, but thereby seems better geared to the needs of advanced students and researchers than to the practitioners who are suggested as a main market. For graduate students in library/information science and related disciplines, in particular, this will be a valuable resource. I would place it alongside Svenonious' book as the best insight into the theoretical "why" of information organization. It has evoked a good deal of interest, including a set of essay commentaries in Journal of Information Science (Gilchrist et al., 2013). Introducing these, Alan Gilchrist rightly says that Frické deserves a salute for making explicit the fundamental relationship between the ancient discipline of logic and modern information organization. If information science is to continue to develop, and make a contribution to the organization of the information environments of the future, then this book sets the groundwork for the kind of studies which will be needed." (D. Bawden)

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Abstract

Ranganathan's canons, principles, and postulates can easily confuse readers, especially because he revised and added to them in various editions of his many books. The Classification Research Group, who drew on Ranganathan's work as their basis for classification theory but developed it in their own way, has never clearly organized all their equivalent canons and principles. In this article Spiteri gathers the fundamental rules from both systems and compares and contrasts them. She makes her own clearer set of principles for constructing facets, stating the subject of a document, and designing notation. Spiteri's "simplified model" is clear and understandable, but certainly not simplistic. The model does not include methods for making a faceted system, but will serve as a very useful guide in how to turn initial work into a rigorous classification. Highly recommended

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Abstract

A description is provided of basic faceted classification, which involves combinations of foci across facets, where the foci within a facet are dependent (i.e., exclusive) and the foci across facets are independent (i.e., orthogonal). This is shown to be suitable for organizing the basic goods that Amazon, the online retailer, sells and for progressive filtering as a mode of search. However, on closer inspection, the Amazon case involves a sorted domain. This is problematic for basic faceted classification. Additionally, books from Amazon would typically carry subject classification, which also is difficult for basic faceted classification. It does not support filtering as a mode of search. Subject classification really requires relatively sophisticated linguistic and logical constructors and modifiers, such as adjectives, adverbs, functions, binary relations, and transitive verbs. These can be part of a synthetic subject classification scheme, but they pose a challenge for faceting.

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Abstract

Henry Evelyn Bliss (1870-1955) devoted several decades of his life to the study of classification and the development of the Bibliographic Classification scheme while serving as a librarian in the College of the City of New York. In the course of the development of the Bibliographic Classification, Bliss developed a body of classification theory published in a number of articles and books, among which the best known are The Organization of Knowledge and the System of the Sciences (1929), Organization of Knowledge in Libraries and the Subject Approach to Books (1933; 2nd ed., 1939), and the lengthy preface to A Bibliographic Classification (Volumes 1-2, 1940; 2nd ed., 1952). In developing the Bibliographic Classification, Bliss carefully established its philosophical and theoretical basis, more so than was attempted by the makers of other classification schemes, with the possible exception of S. R. Ranganathan (q.v.) and his Colon Classification. The basic principles established by Bliss for the Bibliographic Classification are: consensus, collocation of related subjects, subordination of special to general and gradation in specialty, and the relativity of classes and of classification (hence alternative location and alternative treatment). In the preface to the schedules of A Bibliographic Classification, Bliss spells out the general principles of classification as weIl as principles specifically related to his scheme. The first volume of the schedules appeared in 1940. In 1952, he issued a second edition of the volume with a rewritten preface, from which the following excerpt is taken, and with the addition of a "Concise Synopsis," which is also included here to illustrate the principles of classificatory structure. In the excerpt reprinted below, Bliss discusses the correlation between classes, concepts, and terms, as weIl as the hierarchical structure basic to his classification scheme. In his discussion of cross-classification, Bliss recognizes the "polydimensional" nature of classification and the difficulties inherent in the two-dimensional approach which is characteristic of linear classification. This is one of the earliest works in which the multidimensional nature of classification is recognized. The Bibliographic Classification did not meet with great success in the United States because the Dewey Decimal Classification and the Library of Congress Classification were already weIl ensconced in American libraries by then. Nonetheless, it attracted considerable attention in the British Commonwealth and elsewhere in the world. A committee was formed in Britain which later became the Bliss Classification Association. A faceted edition of the scheme has been in preparation under the direction of J. Mills and V. Broughton. Several parts of this new edition, entitled Bliss Bibliographic Classification, have been published.

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Abstract

Colon Classification (CC) is truly the first freely faceted scheme for library classification devised and propagated by Dr. S.R. Ranganathan. The scheme is being taught in theory and practice to the students in most of the LIS schools in India and abroad also. Many manuals, Guide books and Introductory works have been published on CC in the past. But the present work tread a new path in presenting CC to the student, teaching and professional community. The present work Colon Classification: Theory and Practice; A Self Instructional Manual is the result of author's twenty-five years experience of teaching theory and practice of CC to the students of LIS. For the first ime concerted and systematic attempt has been made to present theory and practice of CC in self-instructional mode, keeping in view the requirements of students learners of Open Universities/ Distance Education Institutions in particular. The other singificant and novel features introduced in this manual are: Presenting the scope of each block consisting certain units bollowed by objectives, introduction, sections, sub-sections, self check exercises, glossary and assignment of each unit. It is hoped that all these features will help the users/readers of this manual to understand and grasp quickly, the intricacies involved in theory and practice of CC(6th Edition). The manual is presented in three blocks and twelve units.

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Abstract

Consider movie listings in newspapers. Most Canadian newspapers list movie showtimes in two large blocks, for the two major theatre chains. The listings are ordered by region (in large cities), then theatre, then movie, and finally by showtime. Anyone wondering where and when a particular movie is playing must scan the complete listings. Determining what movies are playing in the next half hour is very difficult. When movie listings went onto the web, most sites used a simple faceted organization, always with movie name and theatre, and perhaps with region or neighbourhood (thankfully, theatre chains were left out). They make it easy to pick a theatre and see what movies are playing there, or to pick a movie and see what theatres are showing it. To complete the system, the sites should allow users to browse by neighbourhood and showtime, and to order the results in any way they desired. Thus could people easily find answers to such questions as, "Where is the new James Bond movie playing?" "What's showing at the Roxy tonight?" "I'm going to be out in in Little Finland this afternoon with three hours to kill starting at 2 ... is anything interesting playing?" A hypertext, faceted classification system makes more useful information more easily available to the user. Reading the books and articles below in chronological order will show a certain progression: suggestions that faceting and hypertext might work well, confidence that facets would work well if only someone would make such a system, and finally the beginning of serious work on actually designing, building, and testing faceted web sites. There is a solid basis of how to make faceted classifications (see Vickery in Recommended), but their application online is just starting. Work on XFML (see Van Dijck's work in Recommended) the Exchangeable Faceted Metadata Language, will make this easier. If it follows previous patterns, parts of the Internet community will embrace the idea and make open source software available for others to reuse. It will be particularly beneficial if professionals in both information studies and computer science can work together to build working systems, standards, and code. Each can benefit from the other's expertise in what can be a very complicated and technical area. One particularly nice thing about this area of research is that people interested in combining facets and the web often have web sites where they post their writings.
This bibliography is not meant to be exhaustive, but unfortunately it is not as complete as I wanted. Some books and articles are not be included, but they may be used in my future work. (These include two books and one article by B.C. Vickery: Faceted Classification Schemes (New Brunswick, NJ: Rutgers, 1966), Classification and Indexing in Science, 3rd ed. (London: Butterworths, 1975), and "Knowledge Representation: A Brief Review" (Journal of Documentation 42 no. 3 (September 1986): 145-159; and A.C. Foskett's "The Future of Faceted Classification" in The Future of Classification, edited by Rita Marcella and Arthur Maltby (Aldershot, England: Gower, 2000): 69-80). Nevertheless, I hope this bibliography will be useful for those both new to or familiar with faceted hypertext systems. Some very basic resources are listed, as well as some very advanced ones. Some example web sites are mentioned, but there is no detailed technical discussion of any software. The user interface to any web site is extremely important, and this is briefly mentioned in two or three places (for example the discussion of lawforwa.org (see Example Web Sites)). The larger question of how to display information graphically and with hypertext is outside the scope of this bibliography. There are five sections: Recommended, Background, Not Relevant, Example Web Sites, and Mailing Lists. Background material is either introductory, advanced, or of peripheral interest, and can be read after the Recommended resources if the reader wants to know more. The Not Relevant category contains articles that may appear in bibliographies but are not relevant for my purposes.

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Date

22. 4.1997 21:10:19

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Source

Bulletin d'informations de l'Association des Bibliothecaires Francais. 1997, no.175, S.22-23

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Date

27. 5.2007 22:19:35

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Pages

S.1-22

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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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Footnote

Paper presented at conference on 'Local documents, a new classification scheme' at the Research Caucus of the Florida Library Association Annual Conference, Fort Lauderdale, Florida 22 Apr 95

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Date

10. 9.2000 17:38:22

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Pages

S.22-36

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Source

Library trends. 48(1999) no.1, S.22-47