Litcius/Paper detail

Vision-Based Virtual Impedance Control for Robotic System Without Prespecified Task Trajectory

Shuai Ding, Jinzhu Peng, Jianbin Xin, Hui Zhang, Yaonan Wang

2022IEEE Transactions on Industrial Electronics11 citationsDOI

Abstract

This article proposes a vision-based virtual impedance control (VBVIC) scheme for the robotic system without prespecified task trajectory, where a neural network (NN) is used to compensate for the unmodeled dynamics and parameter uncertainties. In the proposed scheme, a novel control framework combined virtual potential field (VPF) with the impedance control is proposed to achieve noncontact impedance control, where the task trajectory does not need to be prespecified but is generated by integrating the bioinspired Tau-J into the virtual impedance model. Moreover, the virtual force generated by VPF is utilized to achieve the shaping and tracking of the task trajectory in the virtual impedance control scheme, and the information of target and obstacle is obtained by the visual sensing. The proposed VPF-based VBVIC scheme is analyzed by the Lyapunov stability theory and validated by a carrying task in simulations and experiments, respectively.

Topics & Concepts

TrajectoryLyapunov stabilityImpedance controlElectrical impedanceControl theory (sociology)Computer scienceStability (learning theory)Task (project management)Tracking (education)Impedance parametersScheme (mathematics)Obstacle avoidanceRobotArtificial intelligenceComputer visionControl (management)Mobile robotEngineeringMathematicsPhysicsMachine learningMathematical analysisAstronomyPedagogyElectrical engineeringPsychologySystems engineeringRobot Manipulation and LearningTeleoperation and Haptic SystemsNeuroscience and Neural Engineering