Reconfigurable Intelligent Surfaces for Energy Efficiency in Wireless Communication
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In this article, the authors developed energy-efficient designs for both the transmit power allocation and the phase shifts of the surface reflecting elements subject to individual link budget guarantees for the mobile users.Abstract:
The adoption of a reconfigurable intelligent surface (RIS) for downlink multi-user communication from a multi-antenna base station is investigated in this paper. We develop energy-efficient designs for both the transmit power allocation and the phase shifts of the surface reflecting elements subject to individual link budget guarantees for the mobile users. This leads to non-convex design optimization problems for which to tackle we propose two computationally affordable approaches, capitalizing on alternating maximization, gradient descent search, and sequential fractional programming. Specifically, one algorithm employs gradient descent for obtaining the RIS phase coefficients, and fractional programming for optimal transmit power allocation. Instead, the second algorithm employs sequential fractional programming for the optimization of the RIS phase shifts. In addition, a realistic power consumption model for RIS-based systems is presented, and the performance of the proposed methods is analyzed in a realistic outdoor environment. In particular, our results show that the proposed RIS-based resource allocation methods are able to provide up to 300% higher energy efficiency in comparison with the use of regular multi-antenna amplify-and-forward relaying.read more
Citations
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Optimization of Wireless Relaying With Flexible UAV-Borne Reflecting Surfaces
TL;DR: In this paper, the performance of an integrated UAV-intelligent reflecting surface (IRS) relaying system is analyzed in terms of outage probability, ergodic capacity, and energy efficiency.
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Wireless-Powered Over-the-Air Computation in Intelligent Reflecting Surface-Aided IoT Networks
TL;DR: This article proposes to leverage the intelligent reflecting surface (IRS) that is capable of dynamically reconfiguring the propagation environment to drastically enhance the efficiency of both downlink EB and uplink AirComp in IoT networks and demonstrates the performance gains of the proposed algorithm over the baseline methods.
Journal ArticleDOI
Beyond Cell-Free MIMO: Energy Efficient Reconfigurable Intelligent Surface Aided Cell-Free MIMO Communications
Yutong Zhang,Boya Di,Hongliang Zhang,Jinlong Lin,Chenren Xu,Daqing Zhang,Yonghui Li,Lingyang Song +7 more
TL;DR: This article considers an RIS aided cell-free MIMO system where multiple RISs are deployed around BSs and users to create favorable propagation conditions via reconfigurable reflections in a low-cost way, thereby enhancing cell- free MIMo communications and can achieve a higher energy efficiency than conventional ones.
Posted Content
A Hardware Architecture for Reconfigurable Intelligent Surfaces with Minimal Active Elements for Explicit Channel Estimation
TL;DR: This paper presents a novel RIS architecture comprising of any number of passive reflecting elements, a simple controller for their adjustable configuration, and a single Radio Frequency chain for baseband measurements, and presents an alternating optimization approach for explicit estimation of the channel gains at the RIS elements attached to the single RF chain.
Journal ArticleDOI
Multiuser Full-Duplex Two-Way Communications via Intelligent Reflecting Surface
TL;DR: This paper proposes deploying an IRS to cover the dead zone of cellular multiuser full-duplex (FD) two-way communication links while suppressing user-side self-interference (SI) and co-channel interference (CI) and validate the advantages of introducing IRS to improve coverage in blind areas.
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