Sampling-Based Model Predictive Control Leveraging Parallelizable Physics Simulations

Journal article (2025)

Authors

Corrado Pezzato Robot Dynamics
C. Salmi Robot Dynamics
Elia Trevisan Learning & Autonomous Control
Max Spahn Learning & Autonomous Control
Javier Alonso-Mora Learning & Autonomous Control
Carlos Hernández Robot Dynamics
Research Group
Learning & Autonomous Control
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Published Date

2025

Language

English

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Research Group

Learning & Autonomous Control

Abstract

We present a sampling-based model predictive control method that uses a generic physics simulator as the dynamical model. In particular, we propose a Model Predictive Path Integral controller (MPPI) that employs the GPU-parallelizable IsaacGym simulator to compute the forward dynamics of the robot and environment. Since the simulator implicitly defines the dynamic model, our method is readily extendable to different objects and robots, allowing one to solve complex navigation and contact-rich tasks. We demonstrate the effectiveness of this method in several simulated and real-world settings, including mobile navigation with collision avoidance, non-prehensile manipulation, and whole-body control for high-dimensional configuration spaces. This is a powerful and accessible open-source tool to solve many contact-rich motion planning tasks.

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