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Investigating upper bounds on network lifetime extension for cell-based energy conservation techniques in stationary ad hoc networks
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Source International Conference on Mobile Computing and Networking archive
Proceedings of the 8th annual international conference on Mobile computing and networking table of contents
Atlanta, Georgia, USA
SESSION: Energy Efficient Systems table of contents
Pages: 183 - 192  
Year of Publication: 2002
ISBN:1-58113-486-X
Authors
Douglas M. Blough  Georgia Institute of Technology, Atlanta GA
Paolo Santi  Istituto di Informatica e Telematica, Area della Ricerca del CNR, Via G.Moruzzi 1, 56124 Pisa - ITALY
Sponsors
ACM: Association for Computing Machinery
SIGMOBILE: ACM Special Interest Group on Mobility of Systems, Users, Data and Computing
Publisher
ACM  New York, NY, USA
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Downloads (6 Weeks): 9,   Downloads (12 Months): 52,   Citation Count: 31
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ABSTRACT

Cooperative cell-based strategies have been recently proposed as a technique for extending the lifetime of wireless ad hoc networks, while only slightly impacting network performance. The effectiveness of this approach depends heavily on the node density: the higher it is, the more consistent energy savings can potentially be achieved. However, no general analyses of network lifetime have been done either for a base network (one without any energy conservation technique) or for one using cooperative energy conservation strategies. In this paper, we investigate the lifetime/density tradeoff under the hypothesis that nodes are distributed uniformly at random in a given region, and that the traffic is evenly distributed across the network. We also analyze the case where the node density is just sufficient to ensure that the network is connected with high probability. This analysis, which is supported by the results of extensive simulations, shows that even in this low density scenario, cell-based strategies can significantly extend network lifetime.


REFERENCES

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Y. Thomas Hou , Yi Shi , Hanif D. Sherali, Rate allocation in wireless sensor networks with network lifetime requirement, Proceedings of the 5th ACM international symposium on Mobile ad hoc networking and computing, May 24-26, 2004, Roppongi Hills, Tokyo, Japan
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Y. Thomas Hou , Yi Shi , Jianping Pan , Scott F. Midkiff, Maximizing the Lifetime of Wireless Sensor Networks through Optimal Single-Session Flow Routing, IEEE Transactions on Mobile Computing, v.5 n.9, p.1255-1266, September 2006
 
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Peng Zeng , Chuanzhi Zang , Haibin Yu, Investigating upper bounds on lifetime for target tracking sensor networks, International Journal of Sensor Networks, v.4 n.3, p.185-193, December 2008
 
Ataul Bari , Arunita Jaekel , Subir Bandyopadhyay, Clustering strategies for improving the lifetime of two-tiered sensor networks, Computer Communications, v.31 n.14, p.3451-3459, September, 2008
 
Douglas M. Blough , Giovanni Resta , Paolo Santi, A statistical analysis of the long-run node spatial distribution in mobile ad hoc networks, Wireless Networks, v.10 n.5, p.543-554, September 2004
 
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INDEX TERMS

Primary Classification:
  C. Computer Systems Organization
  C.2 COMPUTER-COMMUNICATION NETWORKS
      C.2.1 Network Architecture and Design


General Terms:
Performance, Theory


Keywords:
cooperative strategies, energy conservation, network lifetime, occupancy theory, wireless ad hoc networks

Collaborative Colleagues:
Douglas M. Blough: colleagues
Paolo Santi: colleagues

Peer to Peer - Readers of this Article have also read:

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