Multi-Objective Joint Design of Finite-Resolution RISs and Downlink Beamforming for Double-RIS-Assisted IoT Networks

Y. Chen; H. D. Tuan; Y. Fang; G. Tan; H. Yu; H. V. Poor

doi:10.1109/JIOT.2025.3575455

Multi-Objective Joint Design of Finite-Resolution RISs and Downlink Beamforming for Double-RIS-Assisted IoT Networks

Y. Chen, H. D. Tuan, Y. Fang, G. Tan, H. Yu, H. V. Poor

Research output: Contribution to journal › Article › peer-review

Abstract

This paper investigates the downlink of an internetof-things (IoT) network with a base station serving multiple IoT devices (IoTDs) with the assistance of two far-apart reconfigurable intelligent surfaces (RISs). We propose joint design of the BS’s beamformer and RISs’ quantized programmable reflecting elements (PREs). Considering the IoTDs’ minimum rate (MR) as the primary optimization objective, we further aim to optimize the multi-objective function of both the MR and sum rate (SR) in the Pareto-optimal sense. We develop convex-solver and closed-form algorithms. Simulations demonstrate that the latter, with scalable complexity, performs as well as the former, which exhibits polynomially increasing complexity. Furthermore, the simulations reveal the advantages of the double-RIS assisted solution over its single-RIS assisted counterpart of the same size.

Original language	English (US)
Journal	IEEE Internet of Things Journal
DOIs	https://doi.org/10.1109/JIOT.2025.3575455
State	Accepted/In press - 2025
Externally published	Yes

All Science Journal Classification (ASJC) codes

Signal Processing
Information Systems
Hardware and Architecture
Computer Science Applications
Computer Networks and Communications

Keywords

Internet-of-things (IoT) network
low-bit quantized programmable reflecting elements (PREs)
minimum rate
multi-objective optimization
reconfigurable intelligent surface (RIS)
sum rate
transmit beamforming

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10.1109/JIOT.2025.3575455

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title = "Multi-Objective Joint Design of Finite-Resolution RISs and Downlink Beamforming for Double-RIS-Assisted IoT Networks",

abstract = "This paper investigates the downlink of an internetof-things (IoT) network with a base station serving multiple IoT devices (IoTDs) with the assistance of two far-apart reconfigurable intelligent surfaces (RISs). We propose joint design of the BS{\textquoteright}s beamformer and RISs{\textquoteright} quantized programmable reflecting elements (PREs). Considering the IoTDs{\textquoteright} minimum rate (MR) as the primary optimization objective, we further aim to optimize the multi-objective function of both the MR and sum rate (SR) in the Pareto-optimal sense. We develop convex-solver and closed-form algorithms. Simulations demonstrate that the latter, with scalable complexity, performs as well as the former, which exhibits polynomially increasing complexity. Furthermore, the simulations reveal the advantages of the double-RIS assisted solution over its single-RIS assisted counterpart of the same size.",

keywords = "Internet-of-things (IoT) network, low-bit quantized programmable reflecting elements (PREs), minimum rate, multi-objective optimization, reconfigurable intelligent surface (RIS), sum rate, transmit beamforming",

author = "Y. Chen and Tuan, {H. D.} and Y. Fang and G. Tan and H. Yu and Poor, {H. V.}",

note = "Publisher Copyright: {\textcopyright} 2014 IEEE.",

year = "2025",

doi = "10.1109/JIOT.2025.3575455",

language = "English (US)",

journal = "IEEE Internet of Things Journal",

issn = "2327-4662",

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AU - Chen, Y.

AU - Tuan, H. D.

AU - Fang, Y.

AU - Tan, G.

AU - Yu, H.

AU - Poor, H. V.

PY - 2025

Y1 - 2025

N2 - This paper investigates the downlink of an internetof-things (IoT) network with a base station serving multiple IoT devices (IoTDs) with the assistance of two far-apart reconfigurable intelligent surfaces (RISs). We propose joint design of the BS’s beamformer and RISs’ quantized programmable reflecting elements (PREs). Considering the IoTDs’ minimum rate (MR) as the primary optimization objective, we further aim to optimize the multi-objective function of both the MR and sum rate (SR) in the Pareto-optimal sense. We develop convex-solver and closed-form algorithms. Simulations demonstrate that the latter, with scalable complexity, performs as well as the former, which exhibits polynomially increasing complexity. Furthermore, the simulations reveal the advantages of the double-RIS assisted solution over its single-RIS assisted counterpart of the same size.

AB - This paper investigates the downlink of an internetof-things (IoT) network with a base station serving multiple IoT devices (IoTDs) with the assistance of two far-apart reconfigurable intelligent surfaces (RISs). We propose joint design of the BS’s beamformer and RISs’ quantized programmable reflecting elements (PREs). Considering the IoTDs’ minimum rate (MR) as the primary optimization objective, we further aim to optimize the multi-objective function of both the MR and sum rate (SR) in the Pareto-optimal sense. We develop convex-solver and closed-form algorithms. Simulations demonstrate that the latter, with scalable complexity, performs as well as the former, which exhibits polynomially increasing complexity. Furthermore, the simulations reveal the advantages of the double-RIS assisted solution over its single-RIS assisted counterpart of the same size.

KW - Internet-of-things (IoT) network

KW - low-bit quantized programmable reflecting elements (PREs)

KW - minimum rate

KW - multi-objective optimization

KW - reconfigurable intelligent surface (RIS)

KW - sum rate

KW - transmit beamforming

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SN - 2327-4662

JO - IEEE Internet of Things Journal

JF - IEEE Internet of Things Journal

ER -

Multi-Objective Joint Design of Finite-Resolution RISs and Downlink Beamforming for Double-RIS-Assisted IoT Networks

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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