Complexity Explorer Santa Few Institute


Technical Book

Self-organization in Nonequilibrium Systems: From Dissipative Structures to Order through Fluctuations

Editorial Review (Amazon): "The emphasis of classical physics has consistently been stability. Yet, today’s thinking has evolved to the realization that such a qualification applies only to limited aspects. Because evolutionary processes lead to vast diversification and increasing complexity, the behavior of a macroscopic system with many interacting subunits can substantially differ from the random superposition of the independent subunits’ evolution. This monograph explores the self-organization phenomena arising in such systems. While relatively new, this field of investigation already encompasses a wide range of problems from chemistry to biology and population dynamics. With emphasis on nonlinear interactions and non-equilibrium constraints, the authors explain how departures from incoherent behavior are induced. Bifurcation and probability theories are used in Parts II and III to explain evolution and pattern formation. Parts IV and V detail examples of self-organization such as oscillating reactions, enzymatic reactions, cellular regulation, morphogenesis, prebiotic evolution, population dynamics, and sociobiology. In addition to the direct utility of mathematical models in the analysis of complex systems, the monograph stresses the universality of the concepts and mechanisms underlying self-organization as opposed to the diversity of the fields to which they apply."

G. Nocolis & I Prigogine
Nonlinear Dynamics, Emergence, Self-Organization