Shield Model Predictive Path Integral: A Computationally Efficient Robust MPC Method Using Control Barrier Functions | IEEE Journals & Magazine | IEEE Xplore

Shield Model Predictive Path Integral: A Computationally Efficient Robust MPC Method Using Control Barrier Functions


Abstract:

Model Predictive Path Integral (MPPI) control is a type of sampling-based model predictive control that simulates thousands of trajectories and uses these trajectories to...Show More

Abstract:

Model Predictive Path Integral (MPPI) control is a type of sampling-based model predictive control that simulates thousands of trajectories and uses these trajectories to synthesize optimal controls on-the-fly. In practice, however, MPPI encounters problems limiting its application. For instance, it has been observed that MPPI tends to make poor decisions if unmodeled dynamics or environmental disturbances exist, preventing its use in safety-critical applications. Moreover, the multi-threaded simulations used by MPPI require significant onboard computational resources, making the algorithm inaccessible to robots without modern GPUs. To alleviate these issues, we propose a novel (Shield-MPPI) algorithm that provides robustness against unpredicted disturbances and achieves real-time planning using a much smaller number of parallel simulations on regular CPUs. The novel Shield-MPPI algorithm is tested on an aggressive autonomous racing platform both in simulation and in hardware. The results show that the proposed controller greatly reduces the number of constraint violations compared to state-of-the-art robust MPPI variants and stochastic Model Predictive Control methods.
Published in: IEEE Robotics and Automation Letters ( Volume: 8, Issue: 11, November 2023)
Page(s): 7106 - 7113
Date of Publication: 13 September 2023

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