DocumentCode
3416008
Title
Distributed adaptive quantization for wireless sensor networks: A maximum likelihood approach
Author
Fang, Jun ; Li, Hongbin
Author_Institution
Stevens Inst. of Technol., Stevens Inst. of Technol., Hoboken, NJ
fYear
2008
fDate
March 31 2008-April 4 2008
Firstpage
2733
Lastpage
2736
Abstract
We consider the problem of distributed parameter estimation in wireless sensor networks (WSNs), where due to bandwidth/power constraints, each sensor quantizes its local observation into one bit of information that is sent to a fusion center (FC) to form a global estimate. Conventional fixed quantization (FQ) approaches, which utilize a fixed threshold for all sensors, incurs an estimation error growing exponentially with the difference between the threshold and the unknown parameter to be estimated. To overcome this difficulty, we propose a distributed adaptive quantization (AQ) approach, where, under the condition that sensors successively broadcast their quantized data, each sensor adaptively adjusts its quantization threshold using prior transmissions from other sensors. Specifically, our strategy here is to let each sensor choose its quantization threshold as the maximum likelihood (ML) estimate of the unknown parameter based on the quantized data sent from other sensors. The Cramer-Rao bound (CRB) analysis shows that our proposed one- bit AQ approach asymptotically attains an estimation variance that is only n/2 times that of the clairvoyant sample-mean estimator using unquantized observations.
Keywords
error analysis; maximum likelihood estimation; quantisation (signal); wireless sensor networks; Cramer-Rao bound analysis; distributed adaptive quantization; distributed parameter estimation; estimation error; estimation variance; fixed quantization; fusion center; maximum likelihood approach; maximum likelihood estimation; sample-mean estimator; wireless sensor networks; Analysis of variance; Bandwidth; Broadcasting; Estimation error; Maximum likelihood estimation; Parameter estimation; Quantization; Robustness; Sensor fusion; Wireless sensor networks; Adaptive quantization; distributed estimation; wireless sensor networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Acoustics, Speech and Signal Processing, 2008. ICASSP 2008. IEEE International Conference on
Conference_Location
Las Vegas, NV
ISSN
1520-6149
Print_ISBN
978-1-4244-1483-3
Electronic_ISBN
1520-6149
Type
conf
DOI
10.1109/ICASSP.2008.4518214
Filename
4518214
Link To Document