Sciweavers

SODA
2007
ACM

On the K-simple shortest paths problem in weighted directed graphs

14 years 27 days ago
On the K-simple shortest paths problem in weighted directed graphs
We obtain the first approximation algorithm for finding the k-simple shortest paths connecting a pair of vertices in a weighted directed graph. Our algorithm is deterministic and has a running time of O(k(m √ n + n3/2 log n)), where m is the number of edges in the graph and n is the number of vertices. Let s, t ∈ V ; the length of the i-th simple path from s to t computed by our algorithm is at most 3 2 times the length of the i-th shortest simple path from s to t. The best algorithms for computing the exact k-simple shortest paths connecting a pair of vertices in a weighted directed graph are due to Yen [19] and Lawler [13]. The running time of their algorithms, using modern data structures, is O(k(mn + n2 log n)). Both algorithms are from the early 70’s. Although this problem and other variants of the k-shortest path problem drew a lot of attention during the last three and a half decades, the O(k(mn + n2 log n)) bound is still unbeaten.
Liam Roditty
Added 30 Oct 2010
Updated 30 Oct 2010
Type Conference
Year 2007
Where SODA
Authors Liam Roditty
Comments (0)