Anthropomorphic robotics
- 1 October 1980
- journal article
- research article
- Published by Springer Nature in Biological Cybernetics
- Vol. 38 (3), 125-140
- https://doi.org/10.1007/bf00337402
Abstract
A study of the fundamental principles upon which manipulation dexterity is based cannot help mixing robotic and neurophysiological concepts. A preliminary step in this study consists of trying to understand the complexity of manipulation dynamics. Though complexity shows itself in the massive number of elements of kinematic and dynamic equations, the fundamental simplicity of the underlying mechanical laws suggests to look for a structure, particularly from the computational point of view. Accordingly, a working computational model is proposed that organizes the massive computational load into a structure which is composed of a small number of computational units and lends itself to parallel computation.This publication has 7 references indexed in Scilit:
- Newton – Euler Formulation of Manipulator Dynamics for Computer ControlIFAC Proceedings Volumes, 1979
- Kinematic and kinetic analysis of open-chain linkages utilizing Newton-Euler methodsMathematical Biosciences, 1979
- Dynamics of active articulated mechanisms and synthesis of artificial motionMechanism and Machine Theory, 1978
- A model for sensorimotor control and learningBiological Cybernetics, 1978
- Modelling, Trajectory Calculation and Servoing of a Computer Controlled ArmPublished by Defense Technical Information Center (DTIC) ,1972
- Resolved Motion Rate Control of Manipulators and Human ProsthesesIEEE Transactions on Systems, Man, and Cybernetics: Systems, IEEE Transactions on Cybernetics, and IEEE Transactions on Human-Machine Systems, 1969
- Rodrigues’ Formula and the Screw MatrixJournal of Engineering for Industry, 1969