Helge Dietert
Published 2014-05-11, updated 2015-02-11Version 2
In his 2011 work, Maas has shown that the law of any time-reversible continuous-time Markov chain with finite state space evolves like a gradient flow of the relative entropy with respect to its stationary distribution. In this work we show the converse to the above by showing that if the relative law of a Markov chain with finite state space evolves like a gradient flow of the relative entropy functional, it must be time-reversible. When we allow general functionals in place of the relative entropy, we show that the law of a Markov chain evolves as gradient flow if and only if the generator of the Markov chain is real diagonalisable. Finally, we discuss what aspects of the functional are uniquely determined by the Markov chain.
Gradient flows of the entropy for jump processes
Projected Langevin dynamics and a gradient flow for entropic optimal transport
Convergence rate to equilibrium in Wasserstein distance for reflected jump-diffusions
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