A differential equation approach to swept volumes

Authors

D. Blackmore, New Jersey Institute of Technology
M. C. Leu, New Jersey Institute of Technology

Document Type

Conference Proceeding

Publication Date

12-1-1990

Abstract

An approach to the analysis of swept volumes is introduced. It is shown that every smooth Euclidean motion, or sweep, can be identified with a first-order, linear, ordinary differential equation. This sweep differential equation provides useful insights into the topological and geometrical nature of the swept volume of an object. A certain class, autonomous sweeps, is identified by the form of the associated differential equation, and several properties of the swept volumes of the members of this class are analyzed. The results are applied to generate swept volumes for a number of objects. Implementation of the sweep differential equation approach with computer-based numerical and graphical methods is also discussed.

Identifier

0025623055 (Scopus)

ISBN

[081861966X]

First Page

143

Last Page

149

Recommended Citation

Blackmore, D. and Leu, M. C., "A differential equation approach to swept volumes" (1990). Faculty Publications. 17682.
https://digitalcommons.njit.edu/fac_pubs/17682