Impact of Channel Errors on Decentralized Detection Performance of Wireless Sensor Networks: A Study of Binary Modulations, Rayleigh-Fading and Nonfading Channels, and Fusion-Combiners
We provide new results on the performance of wireless sensor networks in which a number of identical sensor nodes transmit their binary decisions, regarding a binary hypothesis, to a fusion center (FC) by means of a modulation scheme. Each link between a sensor and the fusion center is modeled indep...
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| Veröffentlicht in: | IEEE transactions on signal processing 2008-05, Vol.56 (5), p.1761-1769 |
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| creator | Kanchumarthy, V.R. Viswanathan, R. Madishetty, M. |
| description | We provide new results on the performance of wireless sensor networks in which a number of identical sensor nodes transmit their binary decisions, regarding a binary hypothesis, to a fusion center (FC) by means of a modulation scheme. Each link between a sensor and the fusion center is modeled independent and identically distibuted (i.i.d.) either as slow Rayleigh-fading or as nonfading. The FC employs a counting rule (CR) or another combining scheme to make a final decision. Main results obtained are the following: 1) in slow fading, a) the correctness of using an average bit error rate of a link, averaged with respect to the fading distribution, for assessing the performance of a CR and b) with proper choice of threshold, on/off keying (OOK), in addition to energy saving, exhibits asymptotic (large number of sensors) performance comparable to that of FSK; and 2) for a large number of sensors, a) for slow fading and a counting rule, given a minimum sensor-to-fusion link SNR, we determine a minimum sensor decision quality, in order to achieve zero asymptotic errors and b) for Rayleigh-fading and nonfading channels and PSK (FSK) modulation, using a large deviation theory, we derive asymptotic error exponents of counting rule, maximal ratio (square law), and equal gain combiners. |
| doi_str_mv | 10.1109/TSP.2007.912264 |
| format | Article |
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Each link between a sensor and the fusion center is modeled independent and identically distibuted (i.i.d.) either as slow Rayleigh-fading or as nonfading. The FC employs a counting rule (CR) or another combining scheme to make a final decision. Main results obtained are the following: 1) in slow fading, a) the correctness of using an average bit error rate of a link, averaged with respect to the fading distribution, for assessing the performance of a CR and b) with proper choice of threshold, on/off keying (OOK), in addition to energy saving, exhibits asymptotic (large number of sensors) performance comparable to that of FSK; and 2) for a large number of sensors, a) for slow fading and a counting rule, given a minimum sensor-to-fusion link SNR, we determine a minimum sensor decision quality, in order to achieve zero asymptotic errors and b) for Rayleigh-fading and nonfading channels and PSK (FSK) modulation, using a large deviation theory, we derive asymptotic error exponents of counting rule, maximal ratio (square law), and equal gain combiners.</description><identifier>ISSN: 1053-587X</identifier><identifier>EISSN: 1941-0476</identifier><identifier>DOI: 10.1109/TSP.2007.912264</identifier><identifier>CODEN: ITPRED</identifier><language>eng</language><publisher>New York, NY: IEEE</publisher><subject>Applied sciences ; Asymptotic error ; Asymptotic properties ; Bit error rate ; Channels ; Chromium ; counting rule ; Decisions ; Diversity reception ; equal gain combiner ; Error correction ; Error detection ; Exact sciences and technology ; Fading ; Frequency shift keying ; FSK ; Information theory ; Information, signal and communications theory ; large deviations ; Links ; maximal ratio combiner ; Modulation ; Modulation, demodulation ; Phase shift keying ; PSK ; Rayleigh channels ; Rayleigh-fading ; Sensor fusion ; Sensors ; Signal and communications theory ; square law combiner ; Studies ; Telecommunications and information theory ; Wireless sensor networks</subject><ispartof>IEEE transactions on signal processing, 2008-05, Vol.56 (5), p.1761-1769</ispartof><rights>2008 INIST-CNRS</rights><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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Each link between a sensor and the fusion center is modeled independent and identically distibuted (i.i.d.) either as slow Rayleigh-fading or as nonfading. The FC employs a counting rule (CR) or another combining scheme to make a final decision. Main results obtained are the following: 1) in slow fading, a) the correctness of using an average bit error rate of a link, averaged with respect to the fading distribution, for assessing the performance of a CR and b) with proper choice of threshold, on/off keying (OOK), in addition to energy saving, exhibits asymptotic (large number of sensors) performance comparable to that of FSK; and 2) for a large number of sensors, a) for slow fading and a counting rule, given a minimum sensor-to-fusion link SNR, we determine a minimum sensor decision quality, in order to achieve zero asymptotic errors and b) for Rayleigh-fading and nonfading channels and PSK (FSK) modulation, using a large deviation theory, we derive asymptotic error exponents of counting rule, maximal ratio (square law), and equal gain combiners.</abstract><cop>New York, NY</cop><pub>IEEE</pub><doi>10.1109/TSP.2007.912264</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record> |
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| ispartof | IEEE transactions on signal processing, 2008-05, Vol.56 (5), p.1761-1769 |
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| subjects | Applied sciences Asymptotic error Asymptotic properties Bit error rate Channels Chromium counting rule Decisions Diversity reception equal gain combiner Error correction Error detection Exact sciences and technology Fading Frequency shift keying FSK Information theory Information, signal and communications theory large deviations Links maximal ratio combiner Modulation Modulation, demodulation Phase shift keying PSK Rayleigh channels Rayleigh-fading Sensor fusion Sensors Signal and communications theory square law combiner Studies Telecommunications and information theory Wireless sensor networks |
| title | Impact of Channel Errors on Decentralized Detection Performance of Wireless Sensor Networks: A Study of Binary Modulations, Rayleigh-Fading and Nonfading Channels, and Fusion-Combiners |
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