Date of Original Version

1993

Type

Conference Proceeding

Abstract or Description

High level assembly plans prescribe the sequence in which parts come together along with their motions. At each stage of assembly the stability of subassemblies is an important concern. In this paper we address the problem of gravitational stability of assemblies of frictionless rigid bodies. Solution methods to the problems of determining if an assembly is stable, and finding a stable orientation for a given assembly are proposed. The solution methods for the two problems compute constrained motions of individual parts that decrease gravitational potential energy, in order to determine stability and search for stable orientations. Linear programming is used to obtain numerical solutions. The problem of finding a stable orientation is formulated as a maximin problem. The solution to this problem is the first general method for automatically determining stable orientations. The program to solve the two problems takes as input a geometric model of the assembly and information related to grounding constraints. Preliminary results are presented.

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