Abstract

Info

Title:: Adaptive admittance control for dual-arm surgical robot using radial basis function neural network

Author(s):: ZHANG Yan; HU Zhi; School of Electronic and Electrical Engineering, Shanghai University of Engineering Science, Shanghai 201620, China

Keywords:: Keywords: adaptive admittance control radial basis function neural network dual-arm surgical robot force tracking

Abstract:: Abstract: Aiming at the problem of large force tracking errors caused by environmental stiffness changes when dual-arm robot is assisting in opening soft tissues in head and neck surgery, an adaptive admittance control strategy based on radial basis function (RBF) neural network is proposed for reducing force tracking error and improving system response speed. By using RBF neural network to adjust admittance parameters online during surgery, the adaptability of the robotic arm to different contact conditions and operation requirements is improved, thereby realizing fast and accurate force tracking. The simulation experiment introduces the adaptive admittance control strategy based on RBF neural network into the dual-arm force synchronous admittance control system and compares it with the traditional fixed-parameter admittance control to prove its contact force control effect under the condition of variable contact environment parameters. The results demonstrate that the adaptive admittance control strategy based on RBF neural network can effectively improve the force tracking accuracy, response speed and anti-interference capability of dual-arm surgical robot.