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Complexity in Tsunamis, Volcanoes, and their Hazards 1st ed. 2022 [Hardback]

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  • Formāts: Hardback, 753 pages, height x width: 254x178 mm, weight: 1913 g, 225 Illustrations, color; 129 Illustrations, black and white; XIX, 753 p. 354 illus., 225 illus. in color., 1 Hardback
  • Sērija : Encyclopedia of Complexity and Systems Science Series
  • Izdošanas datums: 14-Aug-2021
  • Izdevniecība: Springer-Verlag New York Inc.
  • ISBN-10: 1071617044
  • ISBN-13: 9781071617045
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Complexity in Tsunamis, Volcanoes, and their Hazards 1st ed. 2022Palielināt
  • Formāts: Hardback, 753 pages, height x width: 254x178 mm, weight: 1913 g, 225 Illustrations, color; 129 Illustrations, black and white; XIX, 753 p. 354 illus., 225 illus. in color., 1 Hardback
  • Sērija : Encyclopedia of Complexity and Systems Science Series
  • Izdošanas datums: 14-Aug-2021
  • Izdevniecība: Springer-Verlag New York Inc.
  • ISBN-10: 1071617044
  • ISBN-13: 9781071617045
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781071617045.html
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This volume of the Encyclopedia of Complexity and Systems Science, Second Edition is an authoritative single source for understanding and applying the basic tenets of complexity and systems theory, as well as the tools and measures for analyzing complex systems, to the prediction, monitoring, and evaluation of earthquakes, tsunamis, and volcanoes. Early warning, damage, and the immediate response of human populations to these extreme environmental events are also covered from the point of view of complexity and nonlinear systems. In authoritative, state-of-the art articles, world experts in each field apply such complexity tools and concepts as fractals, cellular automata, solitons game theory, network theory, and statistical physics to an understanding of these complex geophysical phenomena.

Part I Tsunami Processes, Hazards, and Forecasting
1(390)
Tsunami Earthquakes
3(22)
J. Polet
H. Kanamori
Tsunamis: Stochastic Models of Occurrence and Generation Mechanisms
25(30)
Eric L. Geist
David D. Oglesby
Kenny J. Ryan
Wedge Mechanics: Relation with Subduction Zone Earthquakes and Tsunamis
55(16)
Kelin Wang
Yan Hu
Jiangheng He
Tsunamis, Inverse Problem of
71(20)
Kenji Satake
Tsunamis: Bayesian Probabilistic Analysis
91(26)
Anita Grezio
Stefano Lorito
Tom Parsons
Jacopo Selva
Tsunami Inundation, Modeling of
117(18)
Patrick J. Lynett
Tsunami Sedimentology
135(18)
Pedro J. M. Costa
S. Dawson
Tsunami from the Storegga Landslide
153(34)
Stein Bondevik
Tsunamis Effects in Man-Made Environment
187(26)
Harry Yeh
Andre Barbosa
Benjamin H. Mason
Tsunami Hazard and Risk Assessment on the Global Scale
213(34)
F. Levholt
J. Griffin
M. A. Salgado-Galvez
Tsunamigenic Major and Great Earthquakes (2004-2013): Source Processes Inverted from Seismic, Geodetic, and Sea-Level Data
247(52)
Stefano Lorito
F. Romano
T. Lay
Earthquake Source Parameters: Rapid Estimates for Tsunami Forecasts and Warnings
299(36)
Barry Hirshorn
Stuart Weinstein
Dailin Wang
Kanoa Koyanagi
Nathan Becker
Charles McCreery
Tsunami Forecasting and Warning
335(38)
Osamu Kamigaichi
Fukushima Catastrophe: The Challenge of Complexity (Collective Reflexivity, Adaptive Knowledge, Political Innovation)
373(18)
Alain-Marc Rieu
Part II Volcanic Processes, Eruptions, and Hazards
391(352)
Volcano Seismology: An Introduction
393(32)
Vyacheslav M. Zobin
Source Quantification of Volcanic-Seismic Signals
425(44)
Hiroyuki Kumagai
Volcanoes, Non-linear Processes in
469(34)
Bernard Chouet
Volcano Deformation: Insights into Magmatic Systems
503(36)
Daniel Dzurisin
Volcanoes in Iceland and Crustal Deformation Processes
539(22)
Signin Hreinsdottir
Volcanic Eruptions, Explosive: Experimental Insights
561(58)
Stephen J. Lane
Michael R. James
Volcanic Eruptions: Cyclicity During Lava Dome Growth
619(28)
Oleg Melnik
R. Stephen
J. Sparks
Antonio Costa
Alexei A. Barmin
Volcanic Eruptions: Stochastic Models of Occurrence Patterns
647(52)
Mark S. Bebbington
Volcanic Hazards and Early Warning
699(18)
Robert I. Tilling
Volcanic Hazards Warnings: Effective Communications of
717(26)
C. J. Feamley
Index 743
After receiving his PhD in geology from Yale University, Robert I. Tilling worked for the U.S. Geological Survey (USGS) for 42 years, mostly on studies of volcanic eruptions and their associated hazards in the U.S. and abroad.  Although "officially" retired since 2004, he remains actively involved in volcano-hazards studies as a Scientist Emeritus with the USGS Volcano Science Center in Menlo Park, California.  During his career, he has authored or co-authored more than 350 geoscience papers and abstracts, including co-editing the Springer volume Monitoring and Mitigation of Volcano Hazards.  In addition to strictly technical works, he has also produced a number of so-called "general-interest" publications (GIPs), specifically intended for educational purposes and public outreach.  For example, he was the principal co-compiler of three editions (1989, 1994, 2006) of the a^ 80,000 copies sold): This Dynamic Planet: World Map of Volcanoes, Earthquakes, Impact Craters, and Plate Tectonics, and was the co-author of an accompanying GIP booklet This Dynamic Earth:  The Story of Plate Tectonics.  In between research assignments, he served several USGS managerial positions, as well as being an invited consultant to some foreign countries (e.g., Colombia, Ecuador, Indonesia, Mexico, and Peru) in connection with volcano-hazards studies.