Joint Hybrid/Passive Beamforming Design in IRS-aided Multi-User MISO Systems for PS-SWIPT

This paper considers an intelligent reflecting surface (IRS)-aided multiple-input single-output broadcasting system for power-splitting (PS) simultaneous wireless information and power transfer, where the access point adopts an analog/digital architecture. We aim at jointly optimizing the hybrid pre...

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Bibliographic Details
Published in:SPAWC : signal processing advances in wireless communications pp. 1 - 5
Main Authors: Ntougias, Konstantinos, Krikidis, Ioannis
Format: Conference Proceeding
Language:English
Published: IEEE 04.07.2022
Subjects:
hybrid precoding
intelligent reflecting surface
manifold optimization
MISO communication
Performance gain
Precoding
Quality of service
Receivers
Signal processing algorithms
Simultaneous wireless information and power transfer
stochastic optimization
Wireless communication
ISSN:1948-3252
Online Access:Get full text
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Summary:This paper considers an intelligent reflecting surface (IRS)-aided multiple-input single-output broadcasting system for power-splitting (PS) simultaneous wireless information and power transfer, where the access point adopts an analog/digital architecture. We aim at jointly optimizing the hybrid precoder, passive beamformer (PB), and PS ratios, such that the transmit sum-power is minimized subject to the quality-of-service requirements of the receivers. We develop a two-layer, penalty-based block coordinate descent algorithm to solve this challenging non-convex optimization problem and employ manifold optimization to update the analog precoding weights and IRS phase shifts. We also derive a low-complexity, decoupled iterative design where the analog precoder is updated via the stochastic gradient descent algorithm and the PB is computed via the successive convex approximation method. Numerical simulations highlight the performance gains of the proposed schemes over various benchmarks and shed light on the impact of the parameter settings on the performance.
ISSN:1948-3252
DOI:10.1109/SPAWC51304.2022.9833937