Title :
Robust Transceiver Design for Wireless Information and Power Transmission in Underlay MIMO Cognitive Radio Networks
Author :
Canhao Xu ; Qi Zhang ; Quanzhong Li ; Yizhi Tan ; Jiayin Qin
Author_Institution :
Sch. of Inf. Sci. & Technol., Sun Yat-Sen Univ., Guangzhou, China
Abstract :
In this letter, we investigate the robust transceiver design problem for simultaneous wireless information and power transfer in multiple-input-multiple-output underlay cognitive radio networks where the channel uncertainties are modeled by the worst-case model. Our objective is to maximize the sum harvested power at energy harvesting receivers while guaranteeing the required minimum mean-square-error at the secondary information-decoding (ID) receiver and the interference constraints at the primary receivers. We propose to alternatively optimize the transmit covariance matrix at secondary transmitter and the preprocessing matrix at secondary ID receiver. Simulation results have shown that the robust transceiver design has significant performance gain over the non-robust one.
Keywords :
MIMO communication; cognitive radio; covariance matrices; decoding; energy harvesting; mean square error methods; radio transceivers; radiofrequency interference; wireless channels; covariance matrix; energy harvesting receivers; information-decoding; interference constraints; mean-square-error; multiple-input-multiple-output; nonrobust transceiver design; performance gain; power transmission; preprocessing matrix; primary receivers; robust transceiver design; secondary ID receiver; secondary transmitter; sum harvested power; underlayMIMO cognitive radio networks; wireless information; worst-case model; Covariance matrices; MIMO; Optimization; Receivers; Robustness; Transceivers; Wireless communication; Cognitive radio (CR); energy harvesting (EH); multiple-input-multiple-output (MIMO); robustness; simultaneous wireless information and power transfer (SWIPT);
Journal_Title :
Communications Letters, IEEE
DOI :
10.1109/LCOMM.2014.2340851
