## Foundations of Synergetics: Distributed active systems |

### What people are saying - Write a review

We haven't found any reviews in the usual places.

### Other editions - View all

### Common terms and phrases

activatory active medium agents amplitude approximation associative memory assume attraction basins Belousov-Zhabotinskii reaction bistable media Boltzmann machine cells cellular automata coefficient complex connections consider core corresponds curvature dependence derivatives described determined distributed active systems dynamical system effect elements energy evolution excitable media excitation wave filament front function Ginzburg-Landau equation given gradient Haken Hence hypercube inhibition inhibitor concentration initial conditions interactions kinematical layer linear minimal molecules neighboring neural networks neurons nonlinear Note null-cline oscillations oscillatory media output units pacemaker parameter Perceptron periodic population population densities possible problem propagation velocity properties prototype patterns pulse radius reaction region reproductive network rotation frequency scroll ring simulated annealing simulations small perturbations solution spatial species spin spin glass spiral wave stable stationary stored patterns stratum Suppose Synergetics temperature term threshold topological charge total number transition trigger wave uniform unstable variables vortex wave patterns wavefront wavenumber width