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Assume we have a path in an undirected cyclic weighted graph. Assuming we have an engine that can find a path from node A to node B in such a graph, is there an easy way/algorithm to figure out if the given path from A to B is at least X% better than any other disjoint path from A to B? By disjoint I mean two paths may not share any edges.

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Could you define "X% better"? –  Ivan Oct 7 '11 at 22:35
    
what type are the weights ? –  Belgi Oct 7 '11 at 22:41
    
@Ivan: uhm... 20% –  Schultz9999 Oct 7 '11 at 23:18
    
@Belgi: integers –  Schultz9999 Oct 7 '11 at 23:19

1 Answer 1

up vote 2 down vote accepted

The only way I see to do this is to remove the edges of the given path from the graph, find a minimum weight path from A to B in the smaller graph, and compare.

To solve this problem using this approach, try one of these well-studied algorithms:

  • Dijkstra's algorithm solves the single-source shortest path problems.
  • Bellman-Ford algorithm solves the single source problem if edge weights may be negative.
  • A* search algorithm solves for single pair shortest path using heuristics to try to speed up the search.
  • Floyd-Warshall algorithm solves all pairs shortest paths.
  • Johnson's algorithm solves all pairs shortest paths, and may be faster than Floyd-Warshall on sparse graphs.
  • Perturbation theory finds (at worst) the locally shortest path.
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This will not work in many cases such as : V={v1,v2,v3,v4} E={(v1,v2),(v2,v3),(v2,v4)}. In this case removing the edges from one path will remove the other path. If you wish to find the second best path (to compare) there is an algorithm for that. –  Belgi Oct 7 '11 at 22:48
    
@Belgi: In what sense does this not work? If removing these edges removes all other paths, then there is no disjoint path. –  PengOne Oct 7 '11 at 22:51
    
sorry, I didn't see the paths are disjoint in edges (voted u up). –  Belgi Oct 7 '11 at 22:57
    
One interesting suggestion I have which seems helping but I struggle to accept. The suggestion is to increase the weight (or decrease if we are looking for the 'heaviest' path) of all edges of the initial path by X% and run search again. If the resulting path matches the initial one then the initial one is at least X% better than any other. Does it really work? I tried draw pictures and so far I can't say it does NOT work. –  Schultz9999 Oct 7 '11 at 23:05
    
@PengOne: the searching is not an issue - we do have A* based engine. –  Schultz9999 Oct 7 '11 at 23:08

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