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Informationen zum Autor G. Randy Keller is a Professor of Geophysics and McCollough Chair at the Mewbourne College of Earth and Energy, University of Oklahoma. He has collaborated with Chaitanya Baru since the emergence of geoinformatics as an organized scientific initiative in the USA in the late 1990s, helping to lead and organize the US Geoinformatics initiative and communicate its potential to colleagues around the world both informally and through many appointments to advisory committees. He is also a Principal Investigator on the GEON (Geoscience Network) project that is a major effort funded by the National Science Foundation. Professor Keller's research has focused on applications specific to the geosciences. Chaitanya Baru is a Distinguished Scientist at the San Diego Supercomputer Center, University of California, San Diego. He has collaborated with G. Randy Keller since the emergence of geoinformatics as an organized scientific initiative in the USA in the late 1990s, helping to lead and organize the US Geoinformatics initiative and communicate its potential to colleagues around the world both informally and through many appointments to advisory committees. He is also a Principal Investigator on the GEON (Geoscience Network) project that is a major effort funded by the National Science Foundation. Dr Baru's work at the San Diego Supercomputer Center has involved cyberinfrastructure activities across a range of scientific subject areas. Klappentext Presents case studies from across the geosciences to provide a fascinating and accessible introduction to this emerging field. Zusammenfassung Advanced information technology infrastructure is being increasingly employed in the Earth sciences. Geoinformatics uses a series of case studies to provide a fascinating and accessible introduction to this emerging field and an invaluable reference for researchers interested in developing new cyberinfrastructure projects of their own. Inhaltsverzeichnis List of contributors; Preface; Introduction: 1. Science needs and challenges for geoinformatics G. Randy Keller; 2. Introduction to IT concepts and challenges Chaitanya Baru; Part I. Case Studies from Other Disciplines: 3. Semantic cyberinfrastructure: the virtual solar-terrestrial observatory Peter Fox and Deborah L. McGuinness; 4. Cyberinfrastructures for life sciences and biomedicine Sriram Krishnan and Ravi Madduri; Part II. Modeling Software and Community Codes: 5. Development, verification and maintenance of computational software in geodynamics Michael Gurnis, Walter Landry, Eh Tan, Luis Armendariz, Leif Strand and Michael Aivazis; 6. Parallel finite element modeling of multi-timescale faulting and lithospheric deformation in the western US Mian Liu, Youqing Yang, Qingsong Li, Gang Luo and Huai Zhang; 7. Next-generation plate-tectonic reconstructions using GPlates James A. Boyden, R. Dietmar Müller, Michael Gurnis, Trond H. Torsvik, James A. Clark, Mark Turner, Hamish Ivey-Law, Robin J. Watson and John S. Cannon; Part III. Visualization and Data Representation: 8. Visualization of seismic model data Amit Chourasia; 9. The UNAVCO GEON Integrated Data Viewer for exploration, analysis, and integration of geoscience data Stuart Wier and Charles Meertens; Part IV. Knowledge Management and Data Integration: 10. Data and tools for geologic timelines and timescales Peter Sadler and Cinzia Cervato; 11. Modeling geodynamic processes with ontologies Hassan Babaie; Part V. Web Services and Scientific Workflows: 12. Service orientation in the design of a community hydrologic information system Ilya Zaslavsky and David Maidment; 13. Web services for seismic data archives Robert Casey and Timothy Ahern; 14. Development of robust data system for gravity and magnetic anomaly data: a case study of a community-based effort for point data Raed Aldouri and G. Randy Keller; 15. Scientific workflows for the geosciences: an emerging approach to b...
