Assembly partitioning along simple paths: the case of multiple translations

Author

Halperin, Dan ; Wilson, Randall H.

Author_Institution

Dept. of Comput. Sci., Stanford Univ., CA, USA

Volume

2

fYear

1995

fDate

21-27 May 1995

Firstpage

1585

Abstract

We consider the following problem that arises in assembly planning: given an assembly, identify a subassembly that can be removed as a rigid object without disturbing the rest of the assembly. This is the assembly partitioning problem. Specifically, we consider planar assemblies of simple polygons and subassembly removal paths consisting of a single finite translation followed by a translation to infinity. Such paths are typical of the capabilities of simple actuators in fixed automation and other high-volume assembly machines. We present a polynomial-time algorithm to identify such a subassembly and removal path. We discuss extending the algorithm to 3D, other types of motions typical in non-robotic automated assembly, and motions consisting of more than two translations

Keywords

assembling; computational complexity; computational geometry; graph theory; path planning; production control; assembly partitioning; assembly planning; assembly sequence; computational complexity; nondirectional blocking graph; path planning; polygons; polynomial-time algorithm; Actuators; Assembly systems; Computer aided software engineering; Computer science; H infinity control; Intelligent robots; Laboratories; Polynomials; Robotic assembly; Robotics and automation;

fLanguage

English

Publisher

ieee

Conference_Titel

Robotics and Automation, 1995. Proceedings., 1995 IEEE International Conference on

Conference_Location

Nagoya

ISSN

1050-4729

Print_ISBN

0-7803-1965-6

Type

conf

DOI

10.1109/ROBOT.1995.525501

Filename

525501