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COMPGEOM
2004
ACM
2004
ACM
New results on shortest paths in three dimensions
We revisit the problem of computing shortest obstacle-avoiding paths among obstacles in three dimensions. We prove new hardness results, showing, e.g., that computing Euclidean shortest paths among sets of “stacked” axis-aligned rectangles is NP-complete, and that computing L1-shortest paths among disjoint balls is NP-complete. On the positive side, we present an efficient algorithm for computing an L1shortest path between two given points that lies on or above a given polyhedral terrain. We also give polynomial-time algorithms for some versions of stacked polygonal obstacles that are “terrain-like” and analyze the complexity of shortest path maps in the presence of parallel halfplane “walls.” Categories and Subject Descriptors: F.2.2 [Analysis of Algorithms and Problem Complexity]: Nonnumerical Algorithms and Problems—geometrical problems and computations General Terms: Algorithms, Theory
Real-time Traffic| Added | 30 Jun 2010 |
| Updated | 30 Jun 2010 |
| Type | Conference |
| Year | 2004 |
| Where | COMPGEOM |
| Authors | Joseph S. B. Mitchell, Micha Sharir |
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