Interoperating Geographic Information Systems

Interoperating Geographic Information Systems

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Geographic information systems have developed rapidly in the past decade, and are now a major class of software, with applications that include infrastructure maintenance, resource management, agriculture, Earth science, and planning. But a lack of standards has led to a general inability for one GIS to interoperate with another. It is difficult for one GIS to share data with another, or for people trained on one system to adapt easily to the commands and user interface of another. Failure to interoperate is a problem at many levels, ranging from the purely technical to the semantic and the institutional.
Interoperating Geographic Information Systems is about efforts to improve the ability of GISs to interoperate, and has been assembled through a collaboration between academic researchers and the software vendor community under the auspices of the US National Center for Geographic Information and Analysis and the Open GIS Consortium Inc. It includes chapters on the basic principles and the various conceptual frameworks that the research community has developed to think about the problem. Other chapters review a wide range of applications and the experiences of the authors in trying to achieve interoperability at a practical level. Interoperability opens enormous potential for new ways of using GIS and new mechanisms for exchanging data, and these are covered in chapters on information marketplaces, with special reference to geographic information. Institutional arrangements are also likely to be profoundly affected by the trend towards interoperable systems, and nowhere is the impact of interoperability more likely to cause fundamental change than in education, as educators address the needs of a new generation of GIS users with access to a new generation of tools. The book concludes with a series of chapters on education and institutional change.
Interoperating Geographic Information Systems is suitable as a secondary text for graduate level courses in computer science, geography, spatial databases, and interoperability and as a reference for researchers and practitioners in industry, commerce and government.
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Product details

  • Hardback | 509 pages
  • 155 x 235 x 34.29mm | 2,040g
  • Dordrecht, Netherlands
  • English
  • 1999 ed.
  • XXII, 509 p.
  • 0792384369
  • 9780792384366

Table of contents

List of Contributors. Preface. About the Editors. Theory and Concepts. 1. Introduction; M.J. Egenhofer. 2. Changing focus on interoperability in information systems: from system, syntax, structure to semantics; A.P. Sneth. 3. Interoperability and spatial information theory; A. Vckovski. 4. The Open GIS Consortium and progress toward interoperability in GIS; C.A. Kottman. 5. Probing the concept of information communities - a first step toward semantic interoperability; Y.A. Bishr, et al. 6. Characterizing the semantic content of geographic data, models, and systems; M.N. Gahegan. 7. Designing for interoperability: Overcoming semantic differences; F. Harvey. 8. Interoperability by exchanging executable content; A. Vckovski. 9. Supporting interoperation of GIS objects; S. Nittel, R.R. Muntz. 10. A specification language for interoperable GIS; A.U. Frank, W. Kuhn. Modeling in Distributed Environments. 11. Introduction; M.F. Goodchild. 12. Interoperability of geographic information: From the spreadsheet to virtual environments; P.P. Goncalves, et al. 13. Geographical modeling in heterogeneous computing environments; D.A. Bennett, et al. 14. Geospatial information extraction: Querying or quarrying? A. Voisard, M. Jurgens. 15. Geospatial modeling: A case study for a statewide land information strategy; D. Pullar, K. Stock. 16. Information brokers for a Web-based geographic information system; I. Finch, E. Small. 17.Automated metadata interpretation to assist in the use of unfamiliar GIS data sources; B.S. Plewe, S.R. Johnson. Systems and Experiences. 18. Introduction; C.A. Kottman. 19. IRIS: A tool to support data anlysis with maps; G.L. Andrienko, N.V. Andrienko. 20. Geo ToolKit: Opening access to object-oriented geodata stores; O. Balovnev, et al. 21. The geospatial interoperability problem: Lessons learned from building the GeoLens prototype; C. Behrens, et al. 22. A middleware architecture for transparent access to multiple spatial object databases; S.K. Cha, et al. 23. Interoperating geographic information systems using the open geospatial datastore interface (OGDI); G. Clement, et al. 24. DIAL: A Web-based interoperable scientific data distribution system; Liping Di, et al. 25. Using the Internet to access geographic information: An Open GIS prototype; F.T. Fonseca, C.A. Davis Jr. 26. GEOLIB: A software component for making GIS tools interoperable; D. Kvedarauskas, et al. 27. Software agent-oriented frameworks for the interoperability of georeferenced digital libraries on the World Wide Web: The SIGAL project; Z. Maamar, et al. 28. Interoperability with the Earth Science Remote Access Tool (ESRAT); R.G. Raskin, E.R. Dobinson. 29. Multi-server Internet GIS: Standardization and practical experiences; C. van den Berg, et al. 30. A visual geospatial information server (VGIS) providing transparent access to heterogeneous sources; Chuanchu Wang, Jiankang Wu. Education, Institutions, and Markets. 31.
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