Complex Systems — Operational Approaches in Neurobiology, Physics, and Computers

Hermann Haken is Professor of the Institute for Theoretical Physics at the University of Stuttgart. He is known as the founder of synergetics. His research has been in nonlinear optics (in particular laser physics), solid state physics, statistical physics, and group theory. After the implementation of the first laser in 1960, Professor Haken developed his institute to an international center for laser theory. The interpretation of the laser principles as self organization of non equilibrium systems paved the way to the development of synergetics, of which Haken is recognized as the founder. Hermann Haken has been visiting professor or guest scientist in England, France, Japan, USA, Russia, and China. He is the author of some 23 textbooks and monographs that cover an impressive number of topics from laser physics to synergetics, and editor of a book series in synergetics. For his pathbreaking work and his influence on academic research, he has been awarded many-times. Among others, he is member of the Order "Pour le merite" and received the Max Planck Medal in 1990.

Operational Approaches to Complex Systems. An Introduction.- I Evolution.- Effects of Finite Population Size and Other Stochastic Phenomena in Molecular Evolution..- II Functions of the Brain in Man and Animals.- Computation of Sensory Information by the Visual System of the Fly (From Behaviour to Neuronal Circuitry)..- Multi-Neuron Experiments: Observation of State in Neural Nets.- Investigation of a Small Volume of Neocortex with Multiple Microelectrodes: Evidence for Principles of Self-Organization..- New Light on the Mind-Brain Problem: How Mental Events Could Influence Neural Events..- Spin Glasses as Model Systems for Neural Networks.- Strange Attractors in the Dynamics of Brain Activity.- III Coordination of Motion.- Cooperative Phenomena in Biological Motion.- The Central Nervous System Utilizes a Simple Control Strategy to Generate the Synergy Used to Control Locomotion.- Control Strategies for Complex Movements Derived from Physical Systems Theory..- Parallel Processes in Oculomotor Control..- Dynamics and Cooperativity in the Organization of Cytoplasmic Structures and Flows..- IV Computers and Computing.- Parallel Processes and Parallel Algorithms.- Massively Parallel Multi-Computer Hardware=Software Structures for Learning..- Pattern Recognition Based on Holonic Information Dynamics: Towards Synergetic Computers..- Self-Organization of the Dynamical Channel.- V Theoretical Concepts.- Macroscopic Prediction..- Entropy-Like Potentials in Non-Equilibrium Systems with Coexisting Attractors..- VI Physical Systems; Order and Chaos.- Bifurcations in Particle Physics and in Crystal Growth.- Pattern Formation and Transients in the Convection Instability.- Convection in Spherical Geometries.- How Does Low Dimensional Chaos Arise in Complex Systems with Infinite Degrees of Freedom?.- Chaos and Turbulence in an Electron-Hole Plasma in Germanium.- Turbulent Motion. The Structure of Chaos..- Fully Developed Turbulence as a Complex Structure in Nonlinear Dynamics..- Cooperative Effects and Superradiance in Compton Scattering and Their Relevance to Free Electron Lasers.- Index of Contributors.