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arxiv: 2506.07325 · v1 · pith:ULST2YZJnew · submitted 2025-06-08 · 💻 cs.RO · math.OC

BR-MPPI: Barrier Rate guided MPPI for Enforcing Multiple Inequality Constraints with Learned Signed Distance Field

classification 💻 cs.RO math.OC
keywords controlmppibarrierconstraintsfunctionclasskinequalityparameter
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Model Predictive Path Integral (MPPI) controller is used to solve unconstrained optimal control problems and Control Barrier Function (CBF) is a tool to impose strict inequality constraints, a.k.a, barrier constraints. In this work, we propose an integration of these two methods that employ CBF-like conditions to guide the control sampling procedure of MPPI. CBFs provide an inequality constraint restricting the rate of change of barrier functions by a classK function of the barrier itself. We instead impose the CBF condition as an equality constraint by choosing a parametric linear classK function and treating this parameter as a state in an augmented system. The time derivative of this parameter acts as an additional control input that is designed by MPPI. A cost function is further designed to reignite Nagumo's theorem at the boundary of the safe set by promoting specific values of classK parameter to enforce safety. Our problem formulation results in an MPPI subject to multiple state and control-dependent equality constraints which are non-trivial to satisfy with randomly sampled control inputs. We therefore also introduce state transformations and control projection operations, inspired by the literature on path planning for manifolds, to resolve the aforementioned issue. We show empirically through simulations and experiments on quadrotor that our proposed algorithm exhibits better sampled efficiency and enhanced capability to operate closer to the safe set boundary over vanilla MPPI.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. GPU-Accelerated Barrier-Rate Guided MPPI Control for Tractor-Trailer Systems

    cs.RO 2025-08 unverdicted novelty 5.0

    BR-MPPI integrates CBF constraints into MPPI importance sampling for collision-free articulated vehicle control, shown in CarMaker simulator to outperform baselines in parking clearance at real-time rates.