Title :
Accelerating Distributed Consensus Using Extrapolation
Author :
Kokiopoulou, Effrosyni ; Frossard, Pascal
Author_Institution :
Signal Process. Inst., Lausanne
Abstract :
In the past few years, the problem of distributed consensus has received a lot of attention, particularly in the framework of ad hoc sensor networks. Most methods proposed in the literature attack this problem by distributed linear iterative algorithms, with asymptotic convergence of the consensus solution. In this letter, we propose the use of extrapolation methods in order to accelerate distributed linear iterations. The extrapolation methods are guaranteed to converge in a finite number of steps, upper bounded by the number of sensors. In particular, we show that the Scalar Epsilon Algorithm (SEA) can accelerate vector sequences produced by distributed linear iterations, with no communication overhead and without knowledge of the full network topology. We provide simulation results that demonstrate the validity and effectiveness of the proposed scheme.
Keywords :
ad hoc networks; extrapolation; iterative methods; telecommunication network topology; Scalar Epsilon Algorithm; ad hoc sensor network; asymptotic convergence; distributed consensus; distributed linear iteration acceleration; distributed linear iterative algorithm; extrapolation; network topology; vector sequence acceleration; Acceleration; Context; Convergence; Distributed computing; Extrapolation; Iterative algorithms; Network topology; Signal processing algorithms; Underwater communication; Vectors; Average consensus; distributed linear iterations; extrapolation; sensor networks;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2007.896383
