Verification theorem related to a zero sum stochastic differential game via Fukushima-Dirichlet decomposition
Résumé
We establish a verification theorem, inspired by those existing in stochastic
control, to demonstrate how a pair of progressively measurable controls can form a Nash equilibrium
in a stochastic zero-sum differential game. Specifically, we suppose that a pathwise-type Isaacs condition is satisfied
together with the existence of what is termed a quasi-strong solution to the Bellman-Isaacs (BI)
equations. In that case we are able to show that the value of the game is achieved and corresponds exactly to the unique
solution of the BI equations. Those have also been applied for improving a well-known verification theorem in
stochastic control theory. In so doing, we have implemented new techniques of stochastic calculus via regularizations, developing
specific chain rules.
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