Inverse Linear-Quadratic Gaussian Differential Games

TL;DR

The proposed framework combines estimation of the feedback strategies, identification of the cost function parameters via a novel reformulation of the coupled Riccati differential equations, and maximum likelihood estimation of the noise scaling parameters.

Abstract

This paper presents a method for solving the Inverse Stochastic Differential Game (ISDG) problem in finite-horizon linear-quadratic Gaussian (LQG) differential games. The objective is to recover cost function parameters of all players, as well as noise scaling parameters of the stochastic system, consistent with observed trajectories. The proposed framework combines (i) estimation of the feedback strategies, (ii) identification of the cost function parameters via a novel reformulation of the coupled Riccati differential equations, and (iii) maximum likelihood estimation of the noise scaling parameters. Simulation results demonstrate that the approach recovers parameters, yielding trajectories that closely match the observed trajectories.