แนวคิดหลัก
The authors propose a monotone splitting algorithm for solving a class of second-order non-potential mean-field games, where the finite-difference scheme represents first-order optimality conditions for a primal-dual pair of monotone inclusions. They prove that the finite-difference system obtains a solution that can be provably recovered by an extension of the primal-dual hybrid gradient (PDHG) algorithm.
บทคัดย่อ
The paper introduces a new algorithm for computing the solutions of a system of PDEs that characterize an equilibrium configuration for a continuum of agents playing a non-cooperative differential game, known as mean-field games (MFG).
Key highlights:
- The authors observe that under the Lasry-Lions monotonicity condition, the MFG system can be seen as a primal-dual pair of monotone inclusions, where the monotone maps are not subgradient maps in general.
- They solve the MFG system by a PDHG variant for monotone inclusions, extending the techniques used for potential and separable MFG systems.
- The proposed method is applicable to non-separable MFG systems and can handle first-order systems (zero viscosity) and non-smooth mean-field interactions, which are challenging cases for other existing approaches.
- Numerical experiments demonstrate the effectiveness of the proposed monotone inclusion methods for solving non-potential MFG systems.