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Paper detail

Safety-Aware Preference-Based Learning for Safety-Critical Control

Bringing dynamic robots into the wild requires a tenuous balance between performance and safety. Yet controllers designed to provide robust safety guarantees often result in conservative behavior, and tuning these controllers to find the ideal trade-off between performance and safety typically requires domain expertise or a carefully constructed reward function. This work presents a design paradigm for systematically achieving behaviors that balance performance and robust safety by integrating safety-aware Preference-Based Learning (PBL) with Control Barrier Functions (CBFs). Fusing these concepts -- safety-aware learning and safety-critical control -- gives a robust means to achieve safe behaviors on complex robotic systems in practice. We demonstrate the capability of this design paradigm to achieve safe and performant perception-based autonomous operation of a quadrupedal robot both in simulation and experimentally on hardware.

preprint2022arXivOpen access
Ryan K. CosnerMaegan TuckerAndrew J. TaylorKejun LiTamás G. MolnárWyatt UbellackerAnil AlanGábor OroszYisong YueAaron D. Ames
Systems and Controleess.SYRobotics
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Ryan K. CosnerMaegan TuckerAndrew J. TaylorKejun LiTamás G. MolnárWyatt UbellackerAnil AlanGábor OroszYisong YueAaron D. Ames

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