Article ID: | iaor20118742 |
Volume: | 39 |
Issue: | 5 |
Start Page Number: | 1054 |
End Page Number: | 1061 |
Publication Date: | May 2012 |
Journal: | Computers and Operations Research |
Authors: | Behdani Behnam, Yun Young Sang, Cole Smith J, Xia Ye |
Keywords: | optimization, energy, combinatorial optimization, programming: linear, quality & reliability |
We address the problem of maximizing the lifetime of a wireless sensor network with energy‐constrained sensors and a mobile sink. The sink travels among discrete locations to gather information from all the sensors. Data can be relayed among sensors and then to the sink location, as long as the sensors and the sink are within a certain threshold distance of each other. However, sending information along a data link consumes energy at both the sender and the receiver nodes. A vital problem that arises is to prescribe sink stop durations and data flow patterns that maximally prolong the life of the network, defined as the amount of time until any node exhausts its energy. We describe linear programming and column generation approaches for this problem, and also for a version in which data can be delayed in its transmission to the sink. Our column generation approach exploits special structures of the linear programming formulations so that all subproblems are shortest path problems with non‐negative costs. Computational results demonstrate the efficiency of the proposed algorithms.