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Tradeoff between stretch factor and load balancing ratio in wireless network routing (2004)
| Content Provider | CiteSeerX |
|---|---|
| Author | Gao, Jie Zhangy, Li |
| Description | In Proc. 23rd Symp. on Principles of Distributed Computing A graph has growth rate k if the number of nodes in any subgraph with diameter r is bounded by O(rk). The communication graphs of wireless networks and peer-to-peer networks often have small growth rate. In this paper we study the tradeoff between two quality measures for routing in growth restricted graphs. The two measures we consider are the stretch factor, which measures the lengths of the routing paths, and the load balancing ratio, which measures how evenly the traffic is distributed. We show that if the routing algo-rithm is required to use paths with stretch factor c, then its load bal-ancing ratio is bounded by O((n=c)11=k), where k is the graph’s growth rate. We illustrate our results by focusing on the unit disk graph for modeling wireless networks in which two nodes have di-rect communication if their distance is under certain threshold. We show that if the maximum density of the nodes is bounded by , there exists routing scheme such that the stretch factor of routing paths is at most c, and the maximum load on the nodes is at most O(min( n=c; n=c)) times the optimum. In addition, the bound on the load balancing ratio is tight in the worst case. As a special case, when the density is bounded by a constant, the shortest path routing has a load balancing ratio of O( p n). The result extends to k-dimensional unit ball graphs and graphs with growth rate k. We also discuss algorithmic issues for load balanced short path routing and for load balanced routing in spanner graphs. |
| File Format | |
| Language | English |
| Publisher Date | 2004-01-01 |
| Access Restriction | Open |
| Subject Keyword | Wireless Network Quality Measure Algorithmic Issue Maximum Density K-dimensional Unit Ball Graph Special Case Di-rect Communication Small Growth Rate Unit Disk Graph Peer-to-peer Network Communication Graph Certain Threshold Maximum Load Growth Rate Short Path Routing Spanner Graph Stretch Factor Graph Growth Rate Load Bal-ancing Ratio Path Routing |
| Content Type | Text |
| Resource Type | Article |
