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INFOCOM
2011
IEEE
2011
IEEE
Approximate distance queries and compact routing in sparse graphs
—An approximate distance query data structure is a compact representation of a graph, and can be queried to approximate shortest paths between any pair of vertices. Any such data structure that retrieves stretch 2k − 1 paths must require space Ω(n1+1/k ) for graphs of n nodes. The hard cases that enforce this lower bound are, however, rather dense graphs with average degree Ω(n1/k ). We present data structures that, for sparse graphs, substantially break that lower bound barrier at the expense of higher query time. For instance, general graphs require O(n3/2 ) space and constant query time for stretch 3 paths. For the realistic scenario of a graph with average degree Θ(log n), special cases of our data structures retrieve stretch 2 paths with ˜O(n3/2 ) space and stretch 3 paths with ˜O(n) space, albeit at the cost of ˜O( n) query time. Moreover, supported by large-scale simulations on graphs including the AS-level Internet graph, we argue that our stretch-2 scheme would be ...
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| Added | 30 Aug 2011 |
| Updated | 30 Aug 2011 |
| Type | Journal |
| Year | 2011 |
| Where | INFOCOM |
| Authors | Rachit Agarwal, Philip Brighten Godfrey, Sariel Har-Peled |
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