A Variational Principle for Computing Slow Invariant Manifolds in Dissipative Dynamical Systems

Dirk Lebiedz, Jochen Siehr, Jonas Unger
2011 SIAM Journal on Scientific Computing  
A key issue in dimension reduction of dissipative dynamical systems with spectral gaps is the identification of slow invariant manifolds. We present theoretical and numerical results for a variational approach to the problem of computing such manifolds for kinetic models using trajectory optimization. The corresponding objective functional reflects a variational principle that characterizes trajectories on, respectively near, slow invariant manifolds. For a two-dimensional linear system and a
more » ... mmon nonlinear test problem we show analytically that the variational approach asymptotically identifies the exact slow invariant manifold in the limit of both an infinite time horizon of the variational problem with fixed spectral gap and infinite spectral gap with a fixed finite time horizon. Numerical results for the linear and nonlinear model problems as well as a more realistic higher-dimensional chemical reaction mechanism are presented.
doi:10.1137/100790318 fatcat:avxs76z5ongvre735f4byltiuu