Add to ORKGWe describe algorithms for finding shortest paths and distances in a planar digraph which exploit the particular topology of the input graph. We give both sequential and parallel algorithms that work on a dynamic environment, where the cost of any edge can be changed or the edge can be deleted. For outerplanar digraphs, for instance, the data structures can be updated after any such change in only $O(\log n)$ time, where $n$ is the number of vertices of the digraph. The parallel algorithms presented here are the first known ones for solving this problem. Our results can be extended to hold for digraphs of genus $o(n)$
We consider the problem of preprocessing an n -vertex digraph with real edge weights so that subsequ...
We show how to maintain a shortest path tree of a general directed graph G with unit edge weights an...
This paper presents the first fully dynamic algorithms for maintaining all-pairs shortest paths in d...
We describe algorithms for finding shortest paths and distances in a planar digraph which exploit th...
We describe algorithms for finding shortest paths and distances in a planar digraph which exploit th...
We describe algorithms for finding shortest paths and distances in a planar digraph which exploit th...
We describe algorithms for finding shortest paths and distances in outerplanar and planar digraphs t...
We describe algorithms for finding shortest paths and distances in aplanar digraph which exploit the...
We describe Mgorithms for finding shortest paths and distances in a planar digraph which exploit the...
AbstractWe propose data structures for maintaining shortest paths in planar graphs in which the weig...
We present algorithms for maintaining shortest path information in dynamic outerplanar digraphs with...
We consider the problem of preprocessing an n -vertex digraph with real edge weights so that subseq...
We consider the problem of preprocessing an n-vertex digraph with real edge weights so that subseque...
We consider the problem of preprocessing an $n$-vertex digraph with real edge weights so that subseq...
We address the problem of single-source shortest path computation in digraphs with non-negative edg...
We consider the problem of preprocessing an n -vertex digraph with real edge weights so that subsequ...
We show how to maintain a shortest path tree of a general directed graph G with unit edge weights an...
This paper presents the first fully dynamic algorithms for maintaining all-pairs shortest paths in d...
We describe algorithms for finding shortest paths and distances in a planar digraph which exploit th...
We describe algorithms for finding shortest paths and distances in a planar digraph which exploit th...
We describe algorithms for finding shortest paths and distances in a planar digraph which exploit th...
We describe algorithms for finding shortest paths and distances in outerplanar and planar digraphs t...
We describe algorithms for finding shortest paths and distances in aplanar digraph which exploit the...
We describe Mgorithms for finding shortest paths and distances in a planar digraph which exploit the...
AbstractWe propose data structures for maintaining shortest paths in planar graphs in which the weig...
We present algorithms for maintaining shortest path information in dynamic outerplanar digraphs with...
We consider the problem of preprocessing an n -vertex digraph with real edge weights so that subseq...
We consider the problem of preprocessing an n-vertex digraph with real edge weights so that subseque...
We consider the problem of preprocessing an $n$-vertex digraph with real edge weights so that subseq...
We address the problem of single-source shortest path computation in digraphs with non-negative edg...
We consider the problem of preprocessing an n -vertex digraph with real edge weights so that subsequ...
We show how to maintain a shortest path tree of a general directed graph G with unit edge weights an...
This paper presents the first fully dynamic algorithms for maintaining all-pairs shortest paths in d...