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Complex systems : chaos and beyond A constructive approach with applications in life sciences

By: Kaneko, KunihikoContributor(s): Tsuda, IchiroMaterial type: Text

TextPublication details: Springer, [c1996]ISBN: 9783642631320LOC classification: Q172.5.C45

Contents:

1. Necessity for a Science of Complex Systems 2. Observation Problems from an Information-Theoretical Viewpoint 3. CMLs: Constructive Approach to Spatiotemporal Chaos 4. Networks of Chaotic Elements 5. Significance of Coupled Chaotic Systems to Biological Networks 6. Chaotic Information Processing in the Brain 7. Conversations with Authors

Summary: Chaos in science has always been a fascinating realm since it challenges the usual scientific approach of reductionism. While carefully distinguishing between complexity, holism, randomness, incompleteness, nondeterminism and stochastic behaviour the authors show that, although many aspects of chaos have been phenomenologically understood, most of its defining principles are still difficult to grasp and formulate. Demonstrating that chaos escapes all traditional methods of description, the authors set out to find new methods to deal with this phenomenon and illustrate their constructive approach with many examples from physics, biology and information technology. While maintaining a high level of rigour, an overly complicated mathematical apparatus is avoided in order to make this book accessible, beyond the specialist level, to a wider interdisciplinary readership.

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Item type	Current library	Collection	Shelving location	Call number	Status	Notes	Date due	Barcode	Item holds
Book	ICTS	General Sc	Rack No 3	Q172.5.C45 (Browse shelf (Opens below))	Available	Billno:99815; Billdate: 2018-03-05		01012

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Previous	Q172.5.C45 Chaos in dynamical systems	Q172.5.C45 Non linear dynamics and chaos	Q172.5.C45 Pattern formation and dynamics in non equilibrium systems	Q172.5.C45 Complex systems : chaos and beyond A constructive approach with applications in life sciences	Q172.5.C45 Dynamics of self-organized and self-assembled structures	Q172.5.S96 Synchronization: A universal concept in non linear sciences	Q175 The great equations : Breakthroughs in science from pytagoras to heisenberg	Next

1. Necessity for a Science of Complex Systems
2. Observation Problems from an Information-Theoretical Viewpoint
3. CMLs: Constructive Approach to Spatiotemporal Chaos
4. Networks of Chaotic Elements
5. Significance of Coupled Chaotic Systems to Biological Networks
6. Chaotic Information Processing in the Brain
7. Conversations with Authors

Chaos in science has always been a fascinating realm since it challenges the usual scientific approach of reductionism. While carefully distinguishing between complexity, holism, randomness, incompleteness, nondeterminism and stochastic behaviour the authors show that, although many aspects of chaos have been phenomenologically understood, most of its defining principles are still difficult to grasp and formulate. Demonstrating that chaos escapes all traditional methods of description, the authors set out to find new methods to deal with this phenomenon and illustrate their constructive approach with many examples from physics, biology and information technology. While maintaining a high level of rigour, an overly complicated mathematical apparatus is avoided in order to make this book accessible, beyond the specialist level, to a wider interdisciplinary readership.

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