6533b7ddfe1ef96bd1273cf3
RESEARCH PRODUCT
Distributed Pseudo-Gossip Algorithm and Finite-Length Computational Codes for Efficient In-Network Subspace Projection
Pedro M. CrespoFernando CamaroJesús Gutiérrez-gutiérrezBaltasar Beferull-lozanoXabier Insaustisubject
Cognitive radioTheoretical computer scienceComputationSignal ProcessingBinary numberEnergy consumptionElectrical and Electronic EngineeringLinear subspaceWireless sensor networkAlgorithmSubspace topologyMathematicsCoding (social sciences)description
In this paper, we design a practical power-efficient algorithm for Wireless Sensor Networks (WSN) in order to obtain, in a distributed manner, the projection of an observed sampled spatial field on a subspace of lower dimension. This is an important problem that is motivated in various applications where there are well defined subspaces of interest (e.g., spectral maps in cognitive radios). As opposed to traditional Gossip Algorithms used for subspace projection, where separation of channel coding and computation is assumed, our algorithm combines binary finite-length Computational Coding and a novel gossip-like protocol with certain communication rules, achieving important savings in convergence time and yielding a decrease in energy consumption as the density of the network increases, as compared to a separation scheme.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2013-04-01 | IEEE Journal of Selected Topics in Signal Processing |