TY - GEN
T1 - Signaling with imperfect channel state information
T2 - Military Communications Conference, MILCOM 2007
AU - Qu, Fengzhong
AU - Duan, Dongliang
AU - Yang, Liuqing
AU - Swami, Ananthram
PY - 2007
Y1 - 2007
N2 - Due to complexity considerations, pulse-hased modulations such as pulse position modulation (PPM) and on-off keying (OOK) are well suited for wireless sensor networks (WSNs) since they provide the possibility of carrier-less signaling and, more importantly, non-coherent reception bypassing channel estimation at the receiver. In this paper, we compare PPM and OOK in terms of their battery power efficiencies (BPE). using a nonlinear battery model, and under the same bandwidth efficiency and cutoff rate constraints. Cutoff rate is employed as our comparison criterion because it leads to a tractable analysis that is often impossible through direct evaluation of random coding exponent or capacity. In addition, cutoff rate gives a universal expression for both coherent and non-coherent detection by simply setting different channel state information (CSI) qualities. Our system model integrates typical WSN transmission and reception modules with realistic nonlinear battery models. Circuit power consumption. DC/DC converter efficiency and power amplifier efficiency are also taken into consideration. Our analytical results characterize the signal-to-noise ratio (SNR) - cutoff rate - CSI region where PPM (OOK) is more power efficient than OOK (PPM). We provide an interpretation in terms of transmission range and symbol set size. Numerical results verify the analysis.
AB - Due to complexity considerations, pulse-hased modulations such as pulse position modulation (PPM) and on-off keying (OOK) are well suited for wireless sensor networks (WSNs) since they provide the possibility of carrier-less signaling and, more importantly, non-coherent reception bypassing channel estimation at the receiver. In this paper, we compare PPM and OOK in terms of their battery power efficiencies (BPE). using a nonlinear battery model, and under the same bandwidth efficiency and cutoff rate constraints. Cutoff rate is employed as our comparison criterion because it leads to a tractable analysis that is often impossible through direct evaluation of random coding exponent or capacity. In addition, cutoff rate gives a universal expression for both coherent and non-coherent detection by simply setting different channel state information (CSI) qualities. Our system model integrates typical WSN transmission and reception modules with realistic nonlinear battery models. Circuit power consumption. DC/DC converter efficiency and power amplifier efficiency are also taken into consideration. Our analytical results characterize the signal-to-noise ratio (SNR) - cutoff rate - CSI region where PPM (OOK) is more power efficient than OOK (PPM). We provide an interpretation in terms of transmission range and symbol set size. Numerical results verify the analysis.
UR - http://www.scopus.com/inward/record.url?scp=47949131087&partnerID=8YFLogxK
U2 - 10.1109/MILCOM.2007.4454910
DO - 10.1109/MILCOM.2007.4454910
M3 - Conference Paper published in a book
AN - SCOPUS:47949131087
SN - 1424415136
SN - 9781424415137
T3 - Proceedings - IEEE Military Communications Conference MILCOM
BT - Military Communications Conference, MILCOM 2007
Y2 - 29 October 2007 through 31 October 2007
ER -