Author | Crauel, Hans. author |
---|---|

Title | Stochastic Dynamics [electronic resource] / by Hans Crauel, Matthias Gundlach |

Imprint | New York, NY : Springer New York, 1999 |

Connect to | http://dx.doi.org/10.1007/b97846 |

Descript | XXVII, 440 p. 3 illus. in color. online resource |

SUMMARY

The conference on Random Dynamical Systems took place from April 28 to May 2, 1997, in Bremen and was organized by Matthias Gundlach and Wolfgang Kliemann with the help of th'itz Colonius and Hans Crauel. It brought together mathematicians and scientists for whom mathematics, in particular the field of random dynamical systems, is of relevance. The aim of the conference was to present the current state in the theory of random dynamical systems (RDS), its connections to other areas of mathematics, major fields of applications, and related numerical methods in a coherent way. It was, hoṽever, not by accident that the conference was centered around the 60th birthday of Ludwig Arnold. The theory of RDS oṽes much of its current state and status to Ludwig Arnold. Many aspects of the theory, a large number of results, and several substantial contributions were accomplished by Ludwig Arnold. An even larger number of contributions has been initiated by him. The field be- fited much from his enthusiasm, his openness for problems not completely aligned with his oṽn research interests, his ability to explain mathematics to researchers from other sciences as well as his ability to get mathema- clans interested in problems from applications not completely aligned with their research interests. In particular, a considerable part of the impact stochastics had on physical chemistry as well as on engineering goes back to Ludwig Arnold. He built up an active research group, knoṽn as "the Bremen group"

CONTENT

Stability Along Trajectories at a Stochastic Bifurcation Point -- Bifurcations of One-Dimensional Stochastic Differential Equations -- P-Bifurcations in the Noisy Duffing-van der Pol Equation -- The Stochastic Brusselator: Parametric Noise Destroys Hoft Bifurcation -- Numerical Approximation of Random Attractors -- Random Hyperbolic Systems -- Some Questions in Random Dynamical Systems Involving Real Noise Processes -- Topological, Smooth, and Control Techniques for Perturbed Systems -- Perturbation Methods for Lyapunov Exponents -- The Lyapunov Exponent of the Euler Scheme for Stochastic Differential Equations -- Towards a Theory of Random Numerical Dynamics -- Canonical Stochastic Differential Equations based on Lรฉvy Processes and Their Supports -- On the Link Between Fractional and Stochastic Calculus -- Asymptotic Curvature for Stochastic Dynamical Systems -- Stochastic Analysis on (Infinite-Dimensional) Product Manifolds -- Evolutionary Dynamics in Random Environments -- Microscopic and Mezoscopic Models for Mass Distributions

Mathematics
Calculus of variations
Probabilities
Mathematics
Probability Theory and Stochastic Processes
Calculus of Variations and Optimal Control; Optimization