Reduction And Predictability Of Natural Disasters

Contributors

By John Rundle

By William Klein

Edited by Don Turcotte

On Sale
Jan 17, 1996
Page Count
320 pages
Publisher
Avalon Publishing
ISBN-13
9780201870497

Within the past five years, the international community has recognized that it may be possible, through programs of systematic study, to devise means to reduce and mitigate the occurrence of a variety of devastating natural hazards. Among these disasters are earthquakes, volcanic eruptions, floods, and landslides. The importance of these studies is underscored by the fact that within fifty years, more than a third of the world's population will live in seismically and volcanically active zones. The International Council of Scientific Unions, together with UNESCO and the World Bank, have therefore endorsed the 1990s as the International Decade of Natural Disaster Reduction (IDNDR), and are planning a variety of programs to address problems related to the predictability and mitigation of these disasters, particularly in third-world countries. Parallel programs have begun in a number of U.S. agencies.One of the most promising scientific avenues is to develop the capability to simulate these physical processes in the computer, Many of the recent models are nonlinear in significant ways, for example cellular automata or fractal growth models. They can thus be analyzed in a framework familiar to workers in complex system theory. It is often the case that the occurrence frequency of disaster events generated by the models follow power laws, perhaps with cutoffs. Thus there is a spectrum of event sizes, from small to large, that are presumably related by the nonlinear dynamics of the process. Simulation techniques can be used to study the fundamental physics of the process. Simulation techniques can be used to study the fundamental physics of the process, and most importantly, to develop means to predict the patterns of occurrence of large events in the models and to identify precursory phenomena.

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John Rundle

John Rundle

About the Author

John B. Rundleis a professor of geological sciences and a Fellow in the Cooperative Institute for Research in Environmental Sciences at the University of Colorado, Boulder. He is actively involved in founding the Colorado Center for Chaos and Complexity, a new teaching and research center at the University of ColoradoDonald L. Turcotteis the Maxwell Upson Professor of Engineering in the Department of Geological Sciences, Cornell University. He is a member of the National Academy of Sciences and the American Academy of Arts and Sciences. He is author of Fractals and Chaos in Geology and Geophysics and coauthor of GeodynamicsWilliam Kleinis professor of physics and engineering at Boston University. He is involved in the application of the methods of Statistical Mechanics to problems in Geophysics. John B. Rundleis a professor of geological sciences and a Fellow in the Cooperative Institute for Research in Environmental Sciences at the University of Colorado, Boulder. He is actively involved in founding the Colorado Center for Chaos and Complexity, a new teaching and research center at the University of ColoradoDonald L. Turcotteis the Maxwell Upson Professor of Engineering in the Department of Geological Sciences, Cornell University. He is a member of the National Academy of Sciences and the American Academy of Arts and Sciences. He is author of Fractals and Chaos in Geology and Geophysics and coauthor of GeodynamicsWilliam Kleinis professor of physics and engineering at Boston University. He is involved in the application of the methods of Statistical Mechanics to problems in Geophysics.

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