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Fast and robust numerical method for inverse kinematics with prioritized multiple targets for redundant robots

Masanori Sekiguchi, Naoyuki Takesue

2020Advanced Robotics21 citationsDOIOpen Access PDF

Abstract

In this paper, a new numerical method for inverse kinematics with prioritized multiple targets is proposed. The proposed method is constructed based on the virtual spring model and joint-based damping control. The targets are prioritized by adjusting the effect of the virtual springs. The proposed method has the following three features. First, it does not require complex calculations such as a Jacobian matrix projection into the null space. Second, it can solve prioritized inverse kinematics problems in the position level without integrating the joint velocity. Third, it is robust to parameter variations and singular configurations. The second feature is motivated by the background that most industrial robots in factories are used as position-controlled robots. Simulation experiments using a 9-DOF redundant robot show that the proposed method is faster and more robust than the conventional method. The proposed method is expected to be useful for helping to avoid collisions between links and obstacles using the redundancy.

Topics & Concepts

Jacobian matrix and determinantInverse kinematicsControl theory (sociology)RobotKinematicsComputer scienceRedundancy (engineering)Position (finance)Projection (relational algebra)Robot kinematicsRobustness (evolution)Mathematical optimizationControl engineeringMathematicsArtificial intelligenceAlgorithmEngineeringMobile robotApplied mathematicsControl (management)PhysicsEconomicsBiochemistryGeneClassical mechanicsOperating systemChemistryFinanceRobotic Mechanisms and DynamicsAdvanced Measurement and Metrology TechniquesIterative Learning Control Systems
Fast and robust numerical method for inverse kinematics with prioritized multiple targets for redundant robots | Litcius