Litcius/Paper detail

Closed-form solutions for the inverse kinematics of serial robots using conformal geometric algebra

Isiah Zaplana, Hugo Hadfield, Joan Lasenby

2022UPCommons institutional repository (Universitat Politècnica de Catalunya)48 citationsDOIOpen Access PDF

Abstract

This work addresses the inverse kinematics of serial robots using conformal geometric algebra. Classical approaches include either the use of homogeneous matrices, which entails high computational cost and execution time, or the development of particular geometric strategies that cannot be generalized to arbitrary serial robots. In this work, we present a compact, elegant and intuitive formulation of robot kinematics based on conformal geometric algebra that provides a suitable framework for the closed-form resolution of the inverse kinematic problem for manipulators with a spherical wrist. For serial robots of this kind, the inverse kinematics problem can be split in two subproblems: the position and orientation problems. The latter is solved by appropriately splitting the rotor that defines the target orientation in three simpler rotors, while the former is solved by developing a geometric strategy for each combination of prismatic and revolute joints that forms the position part of the robot. Finally, the inverse kinematics of 7 DoF redundant manipulators with a spherical wrist is solved by extending the geometric solutions obtained in the non-redundant case.

Topics & Concepts

Conformal geometric algebraInverse kinematicsKinematicsGeometric algebraRevolute jointPosition (finance)Serial manipulatorMathematicsConformal mapInverseRobot kinematicsComputer scienceAlgebra over a fieldRobotGeometryArtificial intelligenceMobile robotPure mathematicsParallel manipulatorPhysicsAlgebra representationClassical mechanicsEconomicsFinanceRobotic Mechanisms and DynamicsAdvanced Numerical Analysis TechniquesAdvanced Measurement and Metrology Techniques
Closed-form solutions for the inverse kinematics of serial robots using conformal geometric algebra | Litcius