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Reactive motion planning with probabilistic safety guarantees

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arxiv 2011.03590 v2 pith:A55MNW6F submitted 2020-11-06 cs.RO cs.LGcs.SYeess.SY

Reactive motion planning with probabilistic safety guarantees

classification cs.RO cs.LGcs.SYeess.SY
keywords motionplanningagentsautonomousmodelpredictiveguaranteesmultiple
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Motion planning in environments with multiple agents is critical to many important autonomous applications such as autonomous vehicles and assistive robots. This paper considers the problem of motion planning, where the controlled agent shares the environment with multiple uncontrolled agents. First, a predictive model of the uncontrolled agents is trained to predict all possible trajectories within a short horizon based on the scenario. The prediction is then fed to a motion planning module based on model predictive control. We proved generalization bound for the predictive model using three different methods, post-bloating, support vector machine (SVM), and conformal analysis, all capable of generating stochastic guarantees of the correctness of the predictor. The proposed approach is demonstrated in simulation in a scenario emulating autonomous highway driving.

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