Performance Analysis of Impaired SWIPT NOMA Relaying Networks Over Imperfect Weibull Channels

Performance Analysis of Impaired SWIPT NOMA Relaying Networks Over Imperfect Weibull Channels

This letter considers a simultaneous wireless information and power transfer nonorthogonal multiple access network, where the relay is energy constrained and harvests energy from the source radio frequency signals using a time-switching protocol. Our analysis accounts for imperfect channel state inf...

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Bibliographic Details
Published in:IEEE systems journal Vol. 14; no. 1; pp. 669 - 672
Main Authors: Li, Xingwang, Li, Jingjing, Li, Lihua
Format: Journal Article
Language:English
Published: New York IEEE 01-03-2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Channel estimation
Codes
Energy harvesting
Fading channels
Hardware
Hardware impairments
imperfect channel state information (CSI)
Lower bounds
NOMA
Nonorthogonal multiple access
nonorthogonal multiple access (NOMA)
Power transfer
Protocols
Radio signals
Relaying
Signal to noise ratio
simultaneous wireless information and power transfer (SWIPT)
Switching theory
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Summary:This letter considers a simultaneous wireless information and power transfer nonorthogonal multiple access network, where the relay is energy constrained and harvests energy from the source radio frequency signals using a time-switching protocol. Our analysis accounts for imperfect channel state information (ICSI) and residual hardware impairments (RHIs). To characterize the effects of the two imperfections brought in the considered network, the outage probability (OP) and throughput are investigated. More particularly, we derive a lower bound on the OP in closed-form, as well as the asymptotic OP and diversity order. We also investigate the throughput in the delay-limited transmission mode in terms of deriving corresponding expression. It is observed that the performance of system is limited by RHIs and ICSI, which results in error floor for the OP and zero diversity order. In addition, a key conclusion is that by carefully selecting the ratio factor between the energy harvesting and information transmission phases, the throughput can be maximized.
ISSN:1932-8184
1937-9234
DOI:10.1109/JSYST.2019.2919654