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Randomness is ubiquitous in nature. Random drivers are generally considered a source of disorder in environmental systems. However, the interaction between noise and nonlinear dynamics may lead to the emergence of a number of ordered behaviors (in time and space) that would not exist in the absence of noise. This counterintuitive effect of randomness may play a crucial role in environmental processes. For example, seemingly “random” background events in the atmosphere can grow into larger instabilities that have great effects on weather patterns. This book presents the basics of the theory of stochastic calculus and its application to the study of noise-induced phenomena in environmental systems. It will be an invaluable reference text for ecologists, geoscientists, and environmental engineers interested in the study of stochastic environmental dynamics.Read more
- Addresses a broad readership of scientists who are not mathematicians
- Provides a thorough synthesis of research that is now spread in a diverse and broad body of literature
- Presents the main applications of theories of noise-induced phenomena to the earth and environmental sciences
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- Date Published: March 2018
- format: Paperback
- isbn: 9781108446785
- length: 325 pages
- dimensions: 255 x 180 x 18 mm
- weight: 0.65kg
- contains: 154 b/w illus.
- availability: Available
Table of Contents
2. Noise-driven dynamical systems
3. Noise-induced phenomena in zero-dimensional systems
4. Noise-induced phenomena in environmental systems
5. Noise-induced pattern formation
6. Noise-induced patterns in environmental systems.
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