Division of Informatics
Forrest Hill & 80 South Bridge
PhD Thesis #8405 | |
|---|---|
| Title: | Robot Dynamics Algorithms. |
| Authors: | Featherstone,R |
| Date: | 1984 |
| Presented: | |
| Keywords: | |
| Abstract: | In this dissertation I introduce a new notation for representing rigid-body dynamics, and use it to describe a number of methods for calculating robot dynamics efficiently. The notation (called spatial notation) is based on the use of six-dimensional vectors (called spatial vectors) which combine the linear and angular aspects of rigid-body dynamics. Spatial vectors are similar to quantities called screws and motors. The use of spatail notation allows a more concise treatment of problems in rigid-body dynamics than is possible by the conventional vector approach by reducing the number of quantities required to describe a system and the number and size of equations relating to those quantities. I consider both forward and inverse robot dynamics, though i am concerned mainly with forward dynamics. Three basic algorithms are described: the recursive Newton-Euler method for inverse dynamics, and the composite-rigid-body and articulated-body methods for forward dynamics. The articulated-body method is new, and is based on the use of quantities called articulated-body inertias which relate the force applied to member of a linkage to the acceleration induced in that member, taking into account the effect of the rest of the linkage. Once the basic algorithms have been introduced, I consider some aspects of their implementation on a computer, then I describe various extension of the basic algorithms to cater for generalisations of the robot's structure, including multiple-degree-of-freedom joints and branched kinematic chains. Finally, I consider the problems of simulating contact and impact between the robot and its environment. * |
| Download: | NO ONLINE COPY |
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