TY - GEN
T1 - Distributed detection in wireless sensor networks using complex field network coding
AU - Eritmen, Kayhan
AU - Keskinoz, Mehmet
PY - 2013
Y1 - 2013
N2 - The signal transmission and the information fusion in the wireless sensor networks (WSN) are conventionally assumed to operate over orthogonal channels, which becomes bandwidth and throughput inefficient. To remedy this inefficiency and to improve the detection performance simultaneously, in this work, we first propose to use relaying with complex field network coding (CFNC), which operates over non-orthogonal channels. This provides not only the diversity in space but also diversity in time as well. In this method, each sensor is assigned a unique pre-determined signature and this provides robustness against the multi-access interference. Secondly, we derive the optimal likelihood ratio test (LRT) based fusion rule for the proposed system. Thirdly, we devise a way to choose the sensor signatures. Finally, we evaluate the detection performance of the proposed scheme and compare it with the performance of the conventional method. The simulation results show that we can obtain up to a 105% improvement using distributed detection with CFNC rather than employing the conventional method in literature. This suggests that the distributed detection with CFNC is a promising technique that can be used in next generation WSNs.
AB - The signal transmission and the information fusion in the wireless sensor networks (WSN) are conventionally assumed to operate over orthogonal channels, which becomes bandwidth and throughput inefficient. To remedy this inefficiency and to improve the detection performance simultaneously, in this work, we first propose to use relaying with complex field network coding (CFNC), which operates over non-orthogonal channels. This provides not only the diversity in space but also diversity in time as well. In this method, each sensor is assigned a unique pre-determined signature and this provides robustness against the multi-access interference. Secondly, we derive the optimal likelihood ratio test (LRT) based fusion rule for the proposed system. Thirdly, we devise a way to choose the sensor signatures. Finally, we evaluate the detection performance of the proposed scheme and compare it with the performance of the conventional method. The simulation results show that we can obtain up to a 105% improvement using distributed detection with CFNC rather than employing the conventional method in literature. This suggests that the distributed detection with CFNC is a promising technique that can be used in next generation WSNs.
KW - Distributed detection
KW - fading
KW - network coding
KW - relaying
KW - wireless sensor networks
UR - http://www.scopus.com/inward/record.url?scp=84890846776&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84890846776
SN - 9786058631113
T3 - Proceedings of the 16th International Conference on Information Fusion, FUSION 2013
SP - 989
EP - 996
BT - Proceedings of the 16th International Conference on Information Fusion, FUSION 2013
T2 - 16th International Conference of Information Fusion, FUSION 2013
Y2 - 9 July 2013 through 12 July 2013
ER -