Search (53 results, page 3 of 3)

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Abstract

Over the past few months the International DOI Foundation (IDF) has produced a number of discussion papers and other materials about the Digital Object Identifier (DOIsm) initiative. They are all available at the DOI web site, including a brief summary of the DOI origins and purpose. The aim of the present paper is to update those papers, reflecting recent progress, and to provide a summary of the current position and context of the DOI. Although much of the material presented here is the result of a consensus by the organisations forming the International DOI Foundation, some of the points discuss work in progress. The paper describes the origin of the DOI as a persistent identifier for managing copyrighted materials and its development under the non-profit International DOI Foundation into a system providing identifiers of intellectual property with a framework for open applications to be built using them. Persistent identification implementations consistent with URN specifications have up to now been hindered by lack of widespread availability of resolution mechanisms, content typology consensus, and sufficiently flexible infrastructure; DOI attempts to overcome these obstacles. Resolution of the DOI uses the Handle System®, which offers the necessary functionality for open applications. The aim of the International DOI Foundation is to promote widespread applications of the DOI, which it is doing by pioneering some early implementations and by providing an extensible framework to ensure interoperability of future DOI uses. Applications of the DOI will require an interoperable scheme of declared metadata with each DOI; the basis of the DOI metadata scheme is a minimal "kernel" of elements supplemented by additional application-specific elements, under an umbrella data model (derived from the INDECS analysis) that promotes convergence of different application metadata sets. The IDF intends to require declaration of only a minimal set of metadata, sufficient to enable unambiguous look-up of a DOI, but this must be capable of extension by others to create open applications.

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Abstract

One hundred and one experts in resource description convened in Washington, D.C., November 2 through November 4, 1998, for the sixth Dublin Core Metadata Workshop. The registrants represented 16 countries on 4 continents, and many disciplines. As with previous workshops, many new issues were opened, and vigorous debate was a hallmark of the event. Unlike previous workshops, the focus of DC-6 was not to resolve questions in plenary meetings, but rather to identify unresolved issues and assign them to formal working groups for resolution. The result of this process was an ambitious workplan for 1999. This report summarizes that workplan, highlights the progress that has made been on the workplan, and identifies a few significant projects that exemplify this progress.

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Abstract

Since their inception in the early 1960s the strength and unique aspect of the ISI citation indexes has been their ability to illustrate the conceptual relationships between scholarly documents. When authors create reference lists for their papers, they make explicit links between their own, current work and the prior work of others. The exact nature of these links may not be expressed in the references themselves, and the motivation behind them may vary (this has been the subject of much discussion over the years), but the links embodied in references do exist. Over the past 30+ years, technology has allowed ISI to make the presentation of citation searching increasingly accessible to users of our products. Citation searching and link tracking moved from being rather cumbersome in print, to being direct and efficient (albeit non-intuitive) online, to being somewhat more user-friendly in CD format. But it is the confluence of the hypertext link and development of Web browsers that has enabled us to present to users a new form of citation product -- the Web of Science -- that is intuitive and makes citation indexing conceptually accessible. A cited reference search begins with a known, important (or at least relevant) document used as the search term. The search allows one to identify subsequent articles that have cited that document. This feature adds the dimension of prospective searching to the usual retrospective searching that all bibliographic indexes provide. Citation indexing is a prime example of a concept before its time - important enough to be used in the meantime by those sufficiently motivated, but just waiting for the right technology to come along to expand its use. While it was possible to follow citation links in earlier citation index formats, this required a level of effort on the part of users that was often just too much to ask of the casual user. In the citation indexes as presented in the Web of Science, the relationship between citing and cited documents is evident to users, and a click of the mouse is all it takes to follow a citation link. Citation connections are established between the published papers being indexed from the 8,000+ journals ISI covers and the items their reference lists contain during the data capture process. It is the standardized capture of each of the references included with these documents that enables us to provide the citation searching feature in all the citation index formats, as well as both internal and external links in the Web of Science.

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Abstract

The emerging network environment brings access to an increasing population of heterogeneous repositories. Inevitably, these, have quite diverse metadata vocabularies (categorization codes, classification numbers, index and thesaurus terms). So, necessarily, the number of metadata vocabularies that are accessible but unfamiliar for any individual searcher is increasing steeply. When an unfamiliar metadata vocabulary is encountered, how is a searcher to know which codes or terms will lead to what is wanted? This paper reports work at the University of California, Berkeley, on the design and development of English language indexes to metadata vocabularies. Further details and the current status of the work can be found at the project website http://www.sims.berkeley.edu/research/metadata/

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Abstract

For several years the Digital Library Research Group at Cornell University and the Corporation for National Research Initiatives (CNRI) have been engaged in research focused on the design and development of infrastructures for open architecture, confederated digital libraries. The goal of this effort is to achieve interoperability and extensibility of digital library systems through the definition of key digital library services and their open interfaces, allowing flexible interaction of existing services and augmentation of the infrastructure with new services. Some aspects of this research have included the development and deployment of the Dienst software, the Handle System®, and the architecture of digital objects and repositories. In this paper, we describe the joint effort by Cornell and CNRI to prototype a rich and deployable architecture for interoperable digital objects and repositories. This effort has challenged us to move theories of interoperability closer to practice. The Cornell/CNRI collaboration builds on two existing projects focusing on the development of interoperable digital libraries. Details relating to the technology of these projects are described elsewhere. Both projects were strongly influenced by the fundamental abstractions of repositories and digital objects as articulated by Kahn and Wilensky in A Framework for Distributed Digital Object Services. Furthermore, both programs were influenced by the container architecture described in the Warwick Framework, and by the notions of distributed dynamic objects presented by Lagoze and Daniel in their Distributed Active Relationship work. With these common roots, one would expect that the CNRI and Cornell repositories would be at least theoretically interoperable. However, the actual test would be the extent to which our independently developed repositories were practically interoperable. This paper focuses on the definition of interoperability in the joint Cornell/CNRI work and the set of experiments conducted to formally test it. Our motivation for this work is the eventual deployment of formally tested reference implementations of the repository architecture for experimentation and development by fellow digital library researchers. In Section 2, we summarize the digital object and repository approach that was the focus of our interoperability experiments. In Section 3, we describe the set of experiments that progressively tested interoperability at increasing levels of functionality. In Section 4, we discuss general conclusions, and in Section 5, we give a preview of our future work, including our plans to evolve our experimentation to the point of defining a set of formal metrics for measuring interoperability for repositories and digital objects. This is still a work in progress that is expected to undergo additional refinements during its development.

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