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arxiv: 1804.10171 · v2 · pith:6AVSEGNSnew · submitted 2018-04-26 · 🧮 math.DS · math.PR

Rigorous Validation of Stochastic Transition Paths

classification 🧮 math.DS math.PR
keywords stochasticsolutionsystemsmethodmethodsnumericalpathsrigorous
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Global dynamics in nonlinear stochastic systems is often difficult to analyze rigorously. Yet, many excellent numerical methods exist to approximate these systems. In this work, we propose a method to bridge the gap between computation and analysis by introducing rigorous validated computations for stochastic systems. The first step is to use analytic methods to reduce the stochastic problem to one solvable by a deterministic algorithm and to numerically compute a solution. Then one uses fixed-point arguments, including a combination of analytical and validated numerical estimates, to prove that the computed solution has a true solution in a suitable neighbourhood. We demonstrate our approach by computing minimum-energy transition paths via invariant manifolds and heteroclinic connections. We illustrate our method in the context of the classical M\"uller-Brown test potential.

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