Litcius/Paper detail

Meta-Heuristics Based Inverse Kinematics of Robot Manipulator’s Path Tracking Capability Under Joint Limits

G. Kanagaraj, Sai Kanna R, Vincent F. Yu

2022MENDEL16 citationsDOIOpen Access PDF

Abstract

In robot-assisted manufacturing or assembly, following a predefined path became a critical aspect. In general, inverse kinematics offers the solution to control the movement of manipulator while following the trajectory. The main problem with the inverse kinematics approach is that inverse kinematics are computationally complex. For a redundant manipulator, this complexity is further increased. Instead of employing inverse kinematics, the complexity can be reduced by using a heuristic algorithm. Therefore, a heuristic-based approach can be used to solve the inverse kinematics of the robot manipulator end effector, guaranteeing that the desired paths are accurately followed. This paper compares the performance of four such heuristic-based approaches to solving the inverse kinematics problem. They are Bat Algorithm (BAT), Gravitational Search Algorithm (GSA), Particle Swarm Optimization (PSO), and Whale Optimization Algorithm (WOA). The performance of these algorithms is evaluated based on their ability to accurately follow a predefined trajectory. Extensive simulations show that BAT and GSA outperform PSO and WOA in all aspects considered in this work related to inverse kinematic problems.

Topics & Concepts

Inverse kinematicsKinematicsParticle swarm optimizationHeuristicComputer scienceControl theory (sociology)Motion planningInverseTrajectoryRobot kinematicsHeuristicsKinematics equationsMathematical optimizationPath (computing)MathematicsRobotAlgorithmArtificial intelligenceMobile robotClassical mechanicsProgramming languageAstronomyGeometryPhysicsControl (management)Robotic Mechanisms and DynamicsRobotic Path Planning AlgorithmsRobot Manipulation and Learning
Meta-Heuristics Based Inverse Kinematics of Robot Manipulator’s Path Tracking Capability Under Joint Limits | Litcius