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Abstract

According to Jean M. Tague-Sutcliffe "informetrics" is "the study of the quantitative aspects of information in any form, not just records or bibliographies, and in any social group, not just scientists" (Tague-Sutcliffe, 1992, 1). Leo Egghe also defines "informetrics" in a very broad sense. "(W)e will use the term' informetrics' as the broad term comprising all-metrics studies related to information science, including bibliometrics (bibliographies, libraries,...), scientometrics (science policy, citation analysis, research evaluation,...), webometrics (metrics of the web, the Internet or other social networks such as citation or collaboration networks), ..." (Egghe, 2005b,1311). According to Concepcion S. Wilson "informetrics" is "the quantitative study of collections of moderatesized units of potentially informative text, directed to the scientific understanding of information processes at the social level" (Wilson, 1999, 211). We should add to Wilson's units of text also digital collections of images, videos, spoken documents and music. Dietmar Wolfram divides "informetrics" into two aspects, "system-based characteristics that arise from the documentary content of IR systems and how they are indexed, and usage-based characteristics that arise how users interact with system content and the system interfaces that provide access to the content" (Wolfram, 2003, 6). We would like to follow Tague-Sutcliffe, Egghe, Wilson and Wolfram (and others, for example Björneborn & Ingwersen, 2004) and call this broad research of empirical information science "informetrics". Informetrics includes therefore all quantitative studies in information science. If a scientist performs scientific investigations empirically, e.g. on information users' behavior, on scientific impact of academic journals, on the development of the patent application activity of a company, on links of Web pages, on the temporal distribution of blog postings discussing a given topic, on availability, recall and precision of retrieval systems, on usability of Web sites, and so on, he or she contributes to informetrics. We see three subject areas in information science in which such quantitative research takes place, - information users and information usage, - evaluation of information systems, - information itself, Following Wolfram's article, we divide his system-based characteristics into the "information itself "-category and the "information system"-category. Figure 1 is a simplistic graph of subjects and research areas of informetrics as an empirical information science.

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Abstract

This paper describes the Book House system which is designed to support children's information retrieval in libraries as part of their education. It is a shareware program available on CD-ROM and discs, and comprises functionality for database searching as well as for the classification and storage of book information in the database. The system concept is based on an understanding of children's domain structures and their capabilities for categorization of information needs in connection with their activities in public libraries, in school libraries or in schools. These structures are visualized in the interface by using metaphors and multimedia technology. Through the use of text, images and animation, the Book House supports children - even at a very early age - to learn by doing in an enjoyable way which plays on their previous experiences with computer games. Both words and pictures can be used for searching; this makes the system suitable for all age groups. Even children who have not yet learned to read properly can by selecting pictures search for and find books they would like to have read aloud. Thus at the very beginning of their school period, they can learn to search for books on their own. For the library community itself, such a system will provide an extended service which will increase the number of children's own searches and also improve the relevance, quality and utilization of the collections in the libraries. A market research on the need for an annual indexing service for books in the Book House format is in preparation by the Danish Library Center

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Abstract

The preliminary intended and approved list was: Section 1: To concentrate on Google as virtual monopoly, and Google's reported support of Wikipedia. To find experimental evidence of this support or show that the reports are not more than rumours. Section 2: To address the copy-past syndrome with socio-cultural consequences associated with it. Section 3: To deal with plagiarism and IPR violations as two intertwined topics: how they affect various players (teachers and pupils in school; academia; corporations; governmental studies, etc.). To establish that not enough is done concerning these issues, partially due to just plain ignorance. We will propose some ways to alleviate the problem. Section 4: To discuss the usual tools to fight plagiarism and their shortcomings. Section 5: To propose ways to overcome most of above problems according to proposals by Maurer/Zaka. To examples, but to make it clear that do this more seriously a pilot project is necessary beyond this particular study. Section 6: To briefly analyze various views of plagiarism as it is quite different in different fields (journalism, engineering, architecture, painting, .) and to present a concept that avoids plagiarism from the very beginning. Section 7: To point out the many other dangers of Google or Google-like undertakings: opportunistic ranking, analysis of data as window into commercial future. Section 8: To outline the need of new international laws. Section 9: To mention the feeble European attempts to fight Google, despite Google's growing power. Section 10. To argue that there is no way to catch up with Google in a frontal attack.