The possibility of earthquake forecasting : learning from nature / Sergey Pulinets, Dimitar Ouzounov.

By: Pulinets, Sergey [author.]Contributor(s): Ouzounov, Dimitar [author.] | Institute of Physics (Great Britain) [publisher.]Material type: TextTextSeries: IOP (Series)Release 6 | IOP expanding physicsPublisher: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2018]Description: 1 online resource (various pagings) : illustrations (chiefly color), color mapsContent type: text Media type: electronic Carrier type: online resourceISBN: 9780750312486 ebookSubject(s): Earthquake prediction | Geophysics | SCIENCE / Physics / GeophysicsAdditional physical formats: Print version:: No titleDDC classification: 551.22 LOC classification: QE538.8 .P756 2018ebOnline resources: e-book Full-text access Also available in print.
Contents:
1. What is the meaning of a short-term earthquake forecast? -- 1.1. Basic concepts of seismology -- 1.2. What other measurements are available to complement seismological observations? -- 1.3. Brief summary on earthquake prediction/forecasting
2. Earthquake precursors -- 2.1. An introduction to earthquake precursors -- 2.2. Physical precursors' classification -- 2.3. The physical precursor's concept and how to use it in practical applications -- 2.4. Do animals and humans 'feel' the a
3. Short-term physical precursors and their association with Earth inter-geospheres interaction -- 3.1. Gases as main agents of interaction of the lithosphere with the atmosphere -- 3.2. How much radon can we get? -- 3.3. Ion induced nucleation
4. Multi-parameter exploration of pre-Eq phenomena -- 4.1. Basic principles for identifying anomalies associated with the preparation of earthquakes -- 4.2. Techniques for ionospheric precursors' identification -- 4.3. Multi-sensor networking an
5. Principles of physical-based short-term EQ forecast -- 5.1. Testing new methodologies for short-term earthquake forecasting : multi-parameters precursors -- 5.2. Precursors versus triggers, retarders and recurrent events.
Abstract: This book uses a holistic approach to address the problems of earthquake forecasting, demonstrating the earthquake preparation process as a complex system because of the interaction of different geospheres. The purpose of the book is to widen th
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IOP Science eBook - EBA QE538.8 .P756 2018eb (Browse shelf (Opens below)) Available IOP_20210082

"Version: 20181201"--Title page verso.

Includes bibliographical references.

1. What is the meaning of a short-term earthquake forecast? -- 1.1. Basic concepts of seismology -- 1.2. What other measurements are available to complement seismological observations? -- 1.3. Brief summary on earthquake prediction/forecasting

2. Earthquake precursors -- 2.1. An introduction to earthquake precursors -- 2.2. Physical precursors' classification -- 2.3. The physical precursor's concept and how to use it in practical applications -- 2.4. Do animals and humans 'feel' the a

3. Short-term physical precursors and their association with Earth inter-geospheres interaction -- 3.1. Gases as main agents of interaction of the lithosphere with the atmosphere -- 3.2. How much radon can we get? -- 3.3. Ion induced nucleation

4. Multi-parameter exploration of pre-Eq phenomena -- 4.1. Basic principles for identifying anomalies associated with the preparation of earthquakes -- 4.2. Techniques for ionospheric precursors' identification -- 4.3. Multi-sensor networking an

5. Principles of physical-based short-term EQ forecast -- 5.1. Testing new methodologies for short-term earthquake forecasting : multi-parameters precursors -- 5.2. Precursors versus triggers, retarders and recurrent events.

This book uses a holistic approach to address the problems of earthquake forecasting, demonstrating the earthquake preparation process as a complex system because of the interaction of different geospheres. The purpose of the book is to widen th

Also available in print.

Mode of access: World Wide Web.

System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.

Sergey Pulinets is a principal research scientist in the Space Research Institute of the Russian Academy of Sciences, Moscow. He has more than 35 years of experience in space plasma physics, physics of the ionosphere, and geophysics. As senior s

Title from PDF title page (viewed on January 16, 2019).