Linear-Quadratic Dynamic Games as Receding-Horizon Variational Inequalities
Linear-Quadratic Dynamic Games as Receding-Horizon Variational Inequalities
We consider dynamic games with linear dynamics and quadratic objective functions. We observe that the unconstrained open-loop Nash equilibrium coincides with a linear quadratic regulator in an augmented space, thus deriving an explicit expression of the cost-to-go. With such cost-to-go as a terminal cost, we show asymptotic stability for the receding-horizon solution of the finite-horizon, constrained game. Furthermore, we show that the problem is equivalent to a non-symmetric variational inequality, which does not correspond to any Nash equilibrium problem. For unconstrained closed-loop Nash equilibria, we derive a receding-horizon controller that is equivalent to the infinite-horizon one and ensures asymptotic stability.
Emilio Benenati、Sergio Grammatico
数学
Emilio Benenati,Sergio Grammatico.Linear-Quadratic Dynamic Games as Receding-Horizon Variational Inequalities[EB/OL].(2025-07-21)[2025-08-10].https://arxiv.org/abs/2408.15703.点此复制
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