Berlin ; ; Boston : , : Walter de Gruyter GmbH & Co., KG, , [2014]

©2014

3-11-026828-0

1 online resource (316 p.)

De Gruyter Series in Mathematics and Life Sciences ; ; 4

De Gruyter series in mathematics and life sciences, , 2195-5530 ; ; 4

SK 560

003

Mathematical physics

Energy dissipation

Biophysics

Attractors (Mathematics)

Chaotic behavior in systems

Inglese

Description based upon print version of record.

Includes bibliographical references and index.

Frontmatter -- Preface -- Contents -- 1. Introduction -- 2. Complex dynamics in neural and genetic networks -- 3. Complex patterns and attractors for reaction-diffusion systems -- 4. Random perturbations, evolution and complexity -- Bibliography -- Index -- Backmatter

This book focuses on the dynamic complexity of neural, genetic networks, and reaction diffusion systems. The author shows that all robust attractors can be realized in dynamics of such systems. In particular, a positive solution of the Ruelle-Takens hypothesis for on chaos existence for large class of reaction-diffusion systems is given. The book considers viability problems for such systems - viability under extreme random perturbations - and discusses an interesting hypothesis of M. Gromov and A. Carbone on biological evolution. There appears a connection with the Kolmogorov complexity theory. As applications, transcription-factors-microRNA networks are considered, patterning in biology, a new approach to estimate the computational power of neural and genetic networks, social and economical networks, and a connection with the hard combinatorial problems.