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arxiv: 2501.14526 · v1 · pith:CRG6ZS4S · submitted 2025-01-24 · cs.RO · cs.SY· eess.SY

Robustified Time-optimal Point-to-point Motion Planning and Control under Uncertainty

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classification cs.RO cs.SYeess.SY
keywords stagemotiontimecontroluncertaintyapproachconstraintsgrid
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This paper proposes a novel approach to formulate time-optimal point-to-point motion planning and control under uncertainty. The approach defines a robustified two-stage Optimal Control Problem (OCP), in which stage 1, with a fixed time grid, is seamlessly stitched with stage 2, which features a variable time grid. Stage 1 optimizes not only the nominal trajectory, but also feedback gains and corresponding state covariances, which robustify constraints in both stages. The outcome is a minimized uncertainty in stage 1 and a minimized total motion time for stage 2, both contributing to the time optimality and safety of the total motion. A timely replanning strategy is employed to handle changes in constraints and maintain feasibility, while a tailored iterative algorithm is proposed for efficient, real-time OCP execution.

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