Open Access

Hannes Homburger, Florian Messerer, Moritz Diehl, Johannes Reuter

• Model predictive path integral (MPPI) control has recently received a lot of attention, especially in the robotics and reinforcement learning communities. This letter aims to make the MPPI control framework more accessible to the optimal control community. We present three classes of optimal control problems and their solutions by MPPI. Further, we investigate the suboptimality of MPPI to general deterministic nonlinear discrete-time systems. Here, suboptimality is defined as the deviation between the control provided by MPPI and the optimal solution to the deterministic optimal control problem. Our findings are that in a smooth and unconstrained setting, the growth of suboptimality in the control input trajectory is second-order with the scaling of the MPPI exploration uncertainty. The results indicate that the suboptimality of the MPPI solution can be modulated by tuning the hyperparameters. We illustrate our findings using numerical examples.