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Abstract

Interoperability between digital libraries depends on effective sharing of metadata. Successful sharing of metadata requires common standards for metadata exchange. Previous efforts have focused on either defining a single metadata standard, such as Dublin Core, or building digital library middleware, such as Z39.50 or Stanford's Digital Library Interoperability Protocol. In this article, we propose a distributed architecture for managing metadata and metadata schema. Instead of normalizing all metadata and schema to a single format, we have focused on building a middleware framework that tolerates heterogeneity. By providing facilities for typing and dynamic conversion of metadata, our system permits continual introduction of new forms of metadata with minimal impact on compatibility.

Type

a

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Abstract

Flexible organization of information is one of the key design challenges in any digital library. For the past year, we have been working with members of the National Digital Library Project (NDLP) at the Library of Congress to build an experimental system to organize and store library collections. This is a report on the work. In particular, we describe how a few technical building blocks are used to organize the material in collections, such as the NDLP's, and how these methods fit into a general distributed computing framework. The technical building blocks are part of a framework that evolved as part of the Computer Science Technical Reports Project (CSTR). This framework is described in the paper, "A Framework for Distributed Digital Object Services", by Robert Kahn and Robert Wilensky (1995). The main building blocks are: "digital objects", which are used to manage digital material in a networked environment; "handles", which identify digital objects and other network resources; and "repositories", in which digital objects are stored. These concepts are amplified in "Key Concepts in the Architecture of the Digital Library", by William Y. Arms (1995). In summer 1995, after earlier experimental development, work began on the implementation of a full digital library system based on this framework. In addition to Kahn/Wilensky and Arms, several working papers further elaborate on the design concepts. A paper by Carl Lagoze and David Ely, "Implementation Issues in an Open Architectural Framework for Digital Object Services", delves into some of the repository concepts. The initial repository implementation was based on a paper by Carl Lagoze, Robert McGrath, Ed Overly and Nancy Yeager, "A Design for Inter-Operable Secure Object Stores (ISOS)". Work on the handle system, which began in 1992, is described in a series of papers that can be found on the Handle Home Page. The National Digital Library Program (NDLP) at the Library of Congress is a large scale project to convert historic collections to digital form and make them widely available over the Internet. The program is described in two articles by Caroline R. Arms, "Historical Collections for the National Digital Library". The NDLP itself draws on experience gained through the earlier American Memory Program. Based on this work, we have built a pilot system that demonstrates how digital objects can be used to organize complex materials, such as those found in the NDLP. The pilot was demonstrated to members of the library in July 1996. The pilot system includes the handle system for identifying digital objects, a pilot repository to store them, and two user interfaces: one designed for librarians to manage digital objects in the repository, the other for library patrons to access the materials stored in the repository. Materials from the NDLP's Coolidge Consumerism compilation have been deposited into the pilot repository. They include a variety of photographs and texts, converted to digital form. The pilot demonstrates the use of handles for identifying such material, the use of meta-objects for managing sets of digital objects, and the choice of metadata. We are now implementing an enhanced prototype system for completion in early 1997.

Type

a

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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.

Type

a