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Force Adaptation in Contact Tasks with Dynamical Systems

Walid Amanhoud, Mahdi Khoramshahi, Maxime Bonnesoeur, Aude Billard

202030 citationsDOIOpen Access PDF

Abstract

In many tasks such as finishing operations, achieving accurate force tracking is essential. However, uncertainties in the robot dynamics and the environment limit the force tracking accuracy. Learning a compensation model for these uncertainties to reduce the force error is an effective approach to overcome this limitation. However, this approach requires an adaptive and robust framework for motion and force generation. In this paper, we use the time-invariant Dynamical System (DS) framework for force adaptation in contact tasks. We propose to improve force tracking accuracy through online adaptation of a state-dependent force correction model encoded with Radial Basis Functions (RBFs). We evaluate our method with a KUKA LWR IV+ robotic arm. We show its efficiency to reduce the force error to a negligible amount with different target forces and robot velocities. Furthermore, we study the effect of the hyper-parameters and provide a guideline for their selection. We showcase a collaborative cleaning task with a human by integrating our method to previous works to achieve force, motion, and task adaptation at the same time. Thereby, we highlight the benefits of using adaptive force control in real-world environments where we need reactive and adaptive behaviours in response to interactions with the environment.

Topics & Concepts

Computer scienceAdaptation (eye)Contact forceRobotTask (project management)Tracking (education)Tracking errorHaptic technologyCompensation (psychology)Control theory (sociology)Artificial intelligenceControl engineeringSimulationControl (management)EngineeringPsychologyPhysicsSystems engineeringPedagogyPsychoanalysisQuantum mechanicsOpticsRobot Manipulation and LearningTeleoperation and Haptic SystemsMotor Control and Adaptation