Nonlinear Dynamics, Chaotic and Complex Systems

Proceedings of an International Conference Held in Zakopane, Poland, November 7-12 1995, Plenary Invi
Herausgeber: Infeld, E.; Galkowski, A.; Zelazny, R.

• Broschiertes Buch

Produktbeschreibung

The physics and mathematics of nonlinear dynamics and chaotic and complex systems constitute some of the most fascinating developments of late twentieth-century science. It turns out that chaotic behaviour can be understood, and even utilized, to a far greater degree than had been suspected. Surprisingly, universal constants have been discovered. The implications have changed our understanding of important phenomena in physics, biology, chemistry, economics, medicine and numerous other fields of human endeavour. In this book, two dozen scientists and mathematicians who were deeply involved in the 'nonlinear revolution' cover most of the basic aspects of the field. The book is divided into five parts: dynamical systems, bifurcation theory and chaos; spatially extended systems; dynamical chaos, quantum physics and the foundations of statistical mechanics; evolutionary and cognitive systems; and complex systems as an interface between the sciences.

Produktdetails

• Verlag: Cambridge University Press
• Seitenzahl: 352
• Erscheinungstermin: 18. August 2010
• Englisch
• Abmessung: 229mm x 152mm x 21mm
• Gewicht: 572g
• ISBN-13: 9780521152945
• ISBN-10: 0521152941
• Artikelnr.: 33260267

Inhaltsangabe

Part I. Dynamic Systems Bifurcation Theory and Chaos: 1. Chaos in random
dynamical systems V. M. Gunldach; 2. Controlling chaos using embedded
unstable periodic orbits: the problem of optimal periodic orbits B. R. Hunt
and E. Ott; 3. Chaotic tracer dynamics in open hydrodynamical flows G.
Karolyi, A. Pentek, T. Tel and Z. Toroczkai; 4. Homoclinic chaos L. P.
Shilnikov; Part II. Spatially Extended Systems: 5. Hydrodynamics of
relativistic probability flows I. Bialynicki-Birula; 6. Waves in ionic
reaction-diffusion-migration systems P. Hasal, V. Nevoral, I. Schreiber, H.
Sevcikova, D. Snita, and M. Marek; 7. Anomalous scaling in turbulence: a
field theoretical approach V. Lvov and I. Procaccia; 8. Abelian sandpile
cellular automata M. Markosova; 9. Transport in an incompletely chaotic
magnetic field F. Spineanu; Part III. Dynamical Chaos Quantum Physics and
Foundations Of Statistical Mechanics: 10. Non-equilibrium statistical
mechanics and ergodic theory L. A. Bunimovich; 11. Pseudochaos in
statistical physics B. Chirikov; 12. Foundations of non-equilibrium
statistical mechanics J. P. Dougherty; 13. Thermomechanical particle
simulations W. G. Hoover, H. A. Posch, C. H. Dellago, O. Kum, C. G. Hoover,
A. J. De Groot and B. L. Holian; 14. Quantum dynamics on a Markov
background and irreversibility B. Pavlov; 15. Time chaos and the laws of
nature I. Prigogine and D. J. Driebe; 16. Evolutionary Q and cognitive
systems: dynamic entropies and predictability of evolutionary processes W.
Ebeling; 17. Spatiotemporal chaos information processing in neural networks
H. Szu; 18. Phase transitions and learning in neural networks C. Van den
Broeck; 19. Synthesis of chaos A. Vanecek and S. Celikovsky; 20.
Computational complexity of continuous problems H. Wozniakowski; Part IV.
Complex Systems As An Interface Between Natural Sciences and Environmental
Social and Economic Sciences: 21. Stochastic differential geometry in
finance studies V. G. Makhankov; Part V. Conference Banquet Speech: Where
will the future go? M. J. Feigenbaum.