Title :
Efficient computation of manipulator inertia matrices and the direct dynamics problem
Author :
Balafoutis, C.A. ; Patel, R.V.
Author_Institution :
Dept. of Electr. & Comput. Eng., Concordia Univ., Montreal, Que., Canada
Abstract :
A modeling scheme that uses the concepts of generalized and augmented links is proposed for computing joint-space inertia matrices of open-chain rigid body systems. Expressions for evaluating these matrices are derived, utilizing orthogonal Cartesian tensors and the Newton-Euler equations of motion. The resulting recursive algorithm is applicable to all rigid-link manipulators having open-chain kinematic structures with revolute and/or prismatic joints. An efficient implementation of the algorithm shows that the joint-space inertia-matrix of a six degree-of-freedom manipulator with revolute joints can be computed in approximately 420 multiplications and 339 additions. For manipulators with 0° to 90° twist angles, the number of computations is reduced to 271 multiplications and 250 additions
Keywords :
dynamics; kinematics; matrix algebra; robots; Cartesian tensors; Newton-Euler equations; direct dynamics; inertia matrices; joint-space; kinematic structures; manipulator; modeling; open-chain rigid body systems; recursive algorithm; robots; Acceleration; Actuators; Algorithm design and analysis; Computational modeling; Computer graphics; Computer simulation; Equations; Manipulator dynamics; Robot kinematics; Tensile stress;
Journal_Title :
Systems, Man and Cybernetics, IEEE Transactions on
