Energy Scaling Laws for Distributed Inference in Random Networks

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The energy scaling laws of multihop data fusion networks for distributed inference are considered. The fusion network consists of randomly located sensors independently distributed according to a general spatial distribution in an expanding region. Among the class of data fusion schemes that enable optimal inference at the fusion center for Markov random field hypotheses, the minimum per-sensor energy cost is bounded below by a minimum spanning tree data fusion and above by a suboptimal scheme referred to as Data Fusion for Markov Random Field (DFMRF). Scaling laws are derived for the optimal and suboptimal fusion policies.

Animashree Anandkumar, Joseph E. Yukich, Lang Tong

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CORR 2008 | Data Fusion | Education | Fusion Network | Multihop Data Fusion |

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Added	09 Dec 2010
Updated	09 Dec 2010
Type	Journal
Year	2008
Where	CORR
Authors	Animashree Anandkumar, Joseph E. Yukich, Lang Tong, Ananthram Swami

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Energy Scaling Laws for Distributed Inference in Random Networks

CORR 2008 | Data Fusion | Education | Fusion Network | Multihop Data Fusion |

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