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One of the challenges in military wireless sensor networks is the determination of an information collection
infrastructure that minimizes battery power consumption while being highly resilient against sensor and link failures. In
our previous work we have proposed a heuristic for constructing an information flow graph in wireless sensor networks
based on the mammalian circulatory system, with the goal of minimizing the energy consumption. In this paper we
focus mainly on the resilience benefits that can be achieved when constructing such information flow graphs. We
analyze the resilience of circulatory graphs constructed on top of regular as well as random topologies. We assume two
modes of failure, random and targeted attacks, and we compare the resilience of the circulatory graphs against tree
graphs.
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Vasileios Pappas, Dinesh Chandra Verma, Ananthram Swami, Bong Jun Ko, "On the resiliency of wireless sensor networks with circulation graphs," Proc. SPIE 6981, Defense Transformation and Net-Centric Systems 2008, 698107 (3 April 2008); https://doi.org/10.1117/12.783460