Paper Info
Title
Wireless Information and Energy Transfer in Fading Relay Channels.
Abstract
Wireless energy transfer is a promising solution to provide convenient and steady energy supplies for low-power relays. This paper investigates the simultaneous information and energy transfer in fading relay channels, where the relay has no fixed energy supply and replenishes energy from radio frequency signals transmitted by the source. Assume that the relay can switch among energy harvesting, information decoding, and information retransmission in each channel fading state. Our objective is to maximize the ergodic throughput by optimizing the mode switching rule and transmit power jointly under the data and energy causality constraints. When the source knows channel state information (CSI) of all links, to make the problem tractable, for the relay, we neglect the causality constraints during the transmission, and only consider the total data and energy constraints. We thus obtain an upper bound on the ergodic throughput by solving a convex optimization problem. Numerical results show that the achievable rate is very close to the upper bound when we apply the optimized parameters to a practical system. When the source only knows CSI of partial links, the whole transmission process is divided into two phases: the source transmits in the first phase and the relay decodes and forwards received bits using the harvested energy in the second phase. The throughput maximization problem is solved by combing convex optimization, fractional programming, and linear search. We also consider the simplified network topology when a direct link between the source and destination is unavailable. In this network, we propose algorithms based on bisection method to obtain the optimal parameters in information/energy transfer scheduling and power control when the source knows full or partial CSI. The simulation results reveal that the throughput gain brought by wireless powered relaying in different system configurations when the source knows full or partial CSI. Moreover, the effect of the relay position is discussed.
Year
DOI
Venue
2016
10.1109/JSAC.2016.2612040
IEEE Journal on Selected Areas in Communications
Keywords
Field
DocType
Relays,Throughput,Switches,Fading channels,Wireless communication,Receivers,RF signals,Green communications,Energy efficiency
Topology,Relay channel,Transmitter power output,Telecommunications,Efficient energy use,Computer science,Fading,Power control,Computer network,Throughput,Relay,Channel state information
Journal
Volume
Issue
ISSN
34
12
0733-8716
Citations 
PageRank 
References 
0
0.34
0
Authors
4
Name
Order
Citations
PageRank
Lan Tang1397.39
Zhang Xing-Gan23911.55
Pengcheng Zhu348753.11
Xiaodong Wang43958310.41