Title :
Signal-Processing-Aided Distributed Compression in Virtual MIMO-Based Wireless Sensor Networks
Author :
Jayaweera, Sudharman K. ; Chebolu, Madhavi L. ; Donapati, Rakesh K.
Author_Institution :
New Mexico Univ., Albuquerque
Abstract :
An adaptive signal-processing-aided distributed source coding scheme for virtual multiple-input-multiple-output communication-based wireless sensor networks (WSNs) is proposed. A computationally inexpensive distributed compression scheme that exploits the spatiotemporal correlations of sensor data is implemented with the aid of a recursive least squares (RLS)-based adaptive correlation tracking algorithm. The tracked correlation is used to compute side information that assists in distributed source compression. The proposed virtual space-time block coding and RLS-based compression side information are shown to improve energy efficiency at distributed nodes compared to previously proposed schemes with single-input-single-output communication. A semi-analytical approach is developed for energy efficiency analysis over different channel conditions and transmission distances. The energy efficiency performance of the proposed design is evaluated on real WSN data. The results show that the proposed integrated system outperforms conventional designs beyond certain transmission distance thresholds and leads to lower decoding errors, which makes it a good candidate for energy-aware WSNs.
Keywords :
MIMO communication; adaptive signal processing; block codes; least squares approximations; recursive estimation; source coding; space-time codes; wireless sensor networks; MIMO techniques; adaptive correlation tracking algorithm; adaptive signal-processing-aided distributed source coding scheme; decoding errors; distributed source compression; energy efficiency analysis; recursive least squares algorithm; semi-analytical approach; signal-processing-aided distributed compression; single-input-single-output communication; spatiotemporal correlations; transmission distance thresholds; virtual multiple-input-multiple-output communication; virtual space-time block coding; wireless sensor networks; Adaptive systems; Block codes; Decoding; Distributed computing; Energy efficiency; Least squares methods; MIMO; Source coding; Spatiotemporal phenomena; Wireless sensor networks; Adaptive signal processing; distributed compression; energy efficiency; virtual multiple-input–multiple-output (V-MIMO); wireless sensor networks (WSNs);
Journal_Title :
Vehicular Technology, IEEE Transactions on
DOI :
10.1109/TVT.2007.900361
