Abstract
This paper studies interference exploitation techniques for secure beamforming design in simultaneous wireless information and power transfer in multiple-input single-output systems. In particular, multiuser interference (MUI) and artificially generated noise (AN) signals are designed as constructive to the information receivers (IRs) yet kept disruptive to potential eavesdropping by the energy receivers. The objective is to improve the received signal-to-interference and noise ratio (SINR) at the IRs by exploiting the MUI and AN power in an attempt to minimize the total transmit power. We first propose second-order cone programming-based solutions for the perfect channel state information (CSI) case by defining strong upper and lower bounds on the energy harvesting (EH) constraints. We then provide semidefinite programming-based solutions for the problems. In addition, we also solve the worst case harvested energy maximization problem under the proposed bounds. Finally, robust beamforming approaches based on the above are derived for the case of imperfect CSI. Our results demonstrate that the proposed constructive interference precoding schemes yield huge saving in transmit power over conventional interference management schemes. Most importantly, they show that, while the statistical constraints of conventional approaches may lead to instantaneous SINR as well as EH outages, the instantaneous constraints of our approaches guarantee both constraints at every symbol period.
Highlights
S IMULTANEOUS wireless information and power transfer (SWIPT) has attracted a huge upsurge of interest in recent years due to its potential towards energy-efficient networks
We proposed interference exploitation approaches for ANaided secure beamforming in simultaneous information and energy transfer systems
We studied the downlink transmit power minimization problem under secrecy signal-to-interference and noise ratio (SINR) and energy harvesting constraints considering both perfect and imperfect channel state information (CSI) at the base stations (BSs)
Summary
S IMULTANEOUS wireless information and power transfer (SWIPT) has attracted a huge upsurge of interest in recent years due to its potential towards energy-efficient networks. Since the proposed schemes work on a symbol-by-symbol basis, they can guarantee all the SINR, EH, and secrecy constraints on an instantaneous basis, as opposed to conventional secure SWIPT that can lead to instantaneous signal or energy outages.1 Both perfect and imperfect channel state information (CSI) cases have been investigated. The contributions in this paper can be summarized as follows: 1) We first consider the case when CSI is perfectly known and design a phase-shift keying (PSK) modulation based secure precoding scheme such that the MUI and AN is constructive to the IR reducing the required transit power for given quality-of-service (QoS) constraints.
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