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We are given a connected, undirected graph G on n vertices. There is a mobile robot on one of the vertices; this vertex is labeled s. Each of several other vertices contains a single movable obstacle. The robot and the obstacles may only reside at vertices, although they may be moved across edges. A vertex may never contain more than one object (robot/obstacle). In one step, we may move either the robot or one of the obstacles from its current position υ to a vacant vertex adjacent to v. Our goal is to move the robot to a designated vertex t using the smallest number of steps possible. The problem is a simple abstraction of a robot motion planning problem, with the geometry replaced by the adjacencies in the graph. We point out its connections to robot motion planning. We study its complexity, giving exact and approximate algorithms for several cases
Published in:
Foundations of Computer Science, 1994 Proceedings., 35th Annual Symposium on
Date of Conference: 20-22 Nov 1994
- Page(s):
- 511 - 520
- Meeting Date :
- 20 Nov 1994-22 Nov 1994
- Print ISBN:
- 0-8186-6580-7
- INSPEC Accession Number:
- 4859061
- Conference Location :
- Santa Fe, NM
- Digital Object Identifier :
- 10.1109/SFCS.1994.365740
- Product Type:
- Conference Publications
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