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APPLE: Adaptive Planner Parameter Learning From Evaluative Feedback

Zizhao Wang, Xuesu Xiao, Garrett Warnell, Peter Stone

2021IEEE Robotics and Automation Letters33 citationsDOIOpen Access PDF

Abstract

Classical autonomous navigation systems can control robots in a collision-free manner, oftentimes with verifiable safety and explainability. When facing new environments, however, fine-tuning of the system parameters by an expert is typically required before the system can navigate as expected. To alleviate this requirement, the recently-proposed Adaptive Planner Parameter Learning paradigm allows robots to learn how to dynamically adjust planner parameters using a teleoperated demonstration or corrective interventions from non-expert users. However, these interaction modalities require users to take full control of the moving robot, which requires the users to be familiar with robot teleoperation. As an alternative, we introduce apple, Adaptive Planner Parameter Learning from Evaluative Feedback (real-time, scalar-valued assessments of behavior), which represents a less-demanding modality of interaction. Simulated and physical experiments show apple can achieve better performance compared to the planner with static default parameters and even yield improvement over learned parameters from richer interaction modalities.

Topics & Concepts

TeleoperationPlannerRobotModalitiesComputer scienceArtificial intelligenceHuman–computer interactionSociologySocial scienceRobotic Path Planning AlgorithmsRobot Manipulation and LearningReinforcement Learning in Robotics