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Subexponential convergence for information aggregation on regular trees (1104.2939v1)

Published 14 Apr 2011 in cs.MA, cs.IT, math.IT, math.ST, and stat.TH

Abstract: We consider the decentralized binary hypothesis testing problem on trees of bounded degree and increasing depth. For a regular tree of depth t and branching factor k>=2, we assume that the leaves have access to independent and identically distributed noisy observations of the 'state of the world' s. Starting with the leaves, each node makes a decision in a finite alphabet M, that it sends to its parent in the tree. Finally, the root decides between the two possible states of the world based on the information it receives. We prove that the error probability vanishes only subexponentially in the number of available observations, under quite general hypotheses. More precisely the case of binary messages, decay is subexponential for any decision rule. For general (finite) message alphabet M, decay is subexponential for 'node-oblivious' decision rules, that satisfy a mild irreducibility condition. In the latter case, we propose a family of decision rules with close-to-optimal asymptotic behavior.

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