Graph partitioning algorithm for opportunistic routing in large-scale wireless network

doi:10.1016/S1005-8885(08)60246-0

中国邮电高校学报(英文) ›› 2009, Vol. 16 ›› Issue (4): 42-46.doi: 10.1016/S1005-8885(08)60246-0

Graph partitioning algorithm for opportunistic routing in large-scale wireless network

李彦华,刘元安

Wireless Communication Center, Beijing University of Posts and Telecommunications, Beijing 100876, China

收稿日期:2008-10-07 修回日期:1900-01-01 出版日期:2009-08-31
通讯作者: 李彦华

Graph partitioning algorithm for opportunistic routing in large-scale wireless network

LI Yan-hua, LIU Yuan-an

Wireless Communication Center, Beijing University of Posts and Telecommunications, Beijing 100876, China

Received:2008-10-07 Revised:1900-01-01 Online:2009-08-31
Contact: LI Yan-hua

摘要/Abstract

摘要：

Opportunistic routing takes advantage of the broadcast nature of wireless communications by forwarding data through a set of opportunistic paths instead of one ‘best’ path in traditional routing. However, using the global scheduling opportunistic scheme like the existing opportunistic routing protocol (ExOR) would consume considerable transmission latency and energy in large-scale wireless topologies. In this article, a graph partitioning algorithm is proposed, namely, minimum cut with laplacians (MCL), to divide the Ad-hoc network topology into subgraphs with minimized edge cuts across them. Then the existing opportunistic routing can be applied locally in each subgraph. In this way, forwarders in different subgraphs can transmit simultaneously, and each node only needs to maintain a local forwarder list instead of a global one. The simulations show that using MCL scheme in the opportunistic routing can reduce the end-to-end delay by about 49%, and increase the life time of the wireless node by about 39%.

关键词:

;opportunistic;routing,;graph;partitioning,;wireless;routing,;mobile;Ad-hoc;network

Abstract:

Key words:

opportunistic routing;graph partitioning;wireless routing;mobile Ad-hoc network

LI Yan-hua, LIU Yuan-an. Graph partitioning algorithm for opportunistic routing in large-scale wireless network[J]. Acta Metallurgica Sinica(English letters), 2009, 16(4): 42-46.

参考文献

1. Johnson D B, Maltz D A. Dynamic source routing in Ad-hoc wireless networks. Mobile Computing. Boston, MA, USA: Kluwer Academic Publishers, 1996

2. Perkins C E, Royer E M. Ad-hoc on demand distance vector routing. Proceedings of the 2nd IEEE Workshop onMobile Computing Systems and Applications (WMCSA’99), Feb 25-26, 1999, New Orleans, LA, USA. Piscataway, NJ, USA: IEEE, 1999: 90-100

3. Biswas S, Morris R. ExOR: Opportunistic routing in multi-hop wireless networks. Proceedings of Conference on Applications, Technologies, Architectures, and Protocols for Computer Communications (SIGCOMM’05), Aug 22-26, 2005, Philadelphia, PA, USA. New York, NY, USA: ACM, 2005: 133-144

4. Dubois-Ferriere H, Grossglauser M, Vetterli M. Least-cost opportunistic routing. Proceedings of the 45th Annual Allerton Conference on Communication, Control, and Computing, Sep 26-28, 2007, Monticello, IL, USA. 2007: 994-1001

5. Zeng K, Luo W J, Zhai H Q. On end-to-end throughput of opportunistic routing in multirate and multihop wireless networks. Proceedings of the 27th IEEE Conference on Computer Communications (INFOCOM’08), Apr 13-18, 2008, Phoenix, AZ, USA. Piscataway, NJ, USA: IEEE, 2008: 816-824

6. Li Y H, Chen W, Zhang Z L. Design of forwarder list selection scheme in opportunistic routing protocol. Technical Report TR-08-033. Minneapolis, MN, USA: Computer Science and Engineering Department, University of Minnesota, 2008

7. Fan R K C. Spectral graph theory. Providence, RI, USA: American Mathematical Society, 1997

8. Lütkepohl H. Handbook of Matrices. New York, NY, USA: Wiley, 1997

9. Hartigan J A, Wong M A. A k-means clustering algorithm. Applied Statistics, 1979, 28(1): 100-108

10. Fall K, Varadhan K. The ns-2 Manual. The VINT Project, UC Berkeley, LBL, and Xerox PARC, 2003

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Graph partitioning algorithm for opportunistic routing in large-scale wireless network

Graph partitioning algorithm for opportunistic routing in large-scale wireless network

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