Joint Beamforming Design for Secure RIS-Assisted IoT Networks

This article studies secure communication in an Internet of Things (IoT) network, where the confidential signal is sent by an active refracting reconfigurable intelligent surface (RIS)-based transmitter, and a passive reflective RIS is utilized to improve the secrecy performance of users in the pres...

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Veröffentlicht in:	IEEE internet of things journal 2023-01, Vol.10 (2), p.1628-1641
Hauptverfasser:	Niu, Hehao, Lin, Zhi, Chu, Zheng, Zhu, Zhengyu, Xiao, Pei, Nguyen, Huan X., Lee, Inkyu, Al-Dhahir, Naofal
Format:	Artikel
Sprache:	eng
Schlagworte:	Alternating optimization (AO) Beamforming Eavesdropping Internet of Things joint beamforming (BF) MISO communication Modulation Optimization penalty dual decomposition (PDD) Power demand Radio frequency reconfigurable intelligent surface (RIS) secure communication Transmitters
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container_title	IEEE internet of things journal
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creator	Niu, Hehao Lin, Zhi Chu, Zheng Zhu, Zhengyu Xiao, Pei Nguyen, Huan X. Lee, Inkyu Al-Dhahir, Naofal
description	This article studies secure communication in an Internet of Things (IoT) network, where the confidential signal is sent by an active refracting reconfigurable intelligent surface (RIS)-based transmitter, and a passive reflective RIS is utilized to improve the secrecy performance of users in the presence of multiple eavesdroppers. Specifically, we aim to maximize the weighted sum secrecy rate by jointly designing the power allocation, transmit beamforming (BF) of the refracting RIS, and the phase shifts of the reflective RIS. To solve the nonconvex optimization problem, we propose a linearization method to approximate the objective function into a linear form. Then, an alternating optimization (AO) scheme is proposed to jointly optimize the power allocation factors, BF vector, and phase shifts, where the first one is found using the Lagrange dual method, while the latter two are obtained by utilizing the penalty dual decomposition method. Moreover, considering the demands of green and secure communications, by applying Dinkelbach's method, we extend our proposed scheme to solving a secrecy energy maximization problem. Finally, simulation results demonstrate the effectiveness of the proposed design.
doi_str_mv	10.1109/JIOT.2022.3210115
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Specifically, we aim to maximize the weighted sum secrecy rate by jointly designing the power allocation, transmit beamforming (BF) of the refracting RIS, and the phase shifts of the reflective RIS. To solve the nonconvex optimization problem, we propose a linearization method to approximate the objective function into a linear form. Then, an alternating optimization (AO) scheme is proposed to jointly optimize the power allocation factors, BF vector, and phase shifts, where the first one is found using the Lagrange dual method, while the latter two are obtained by utilizing the penalty dual decomposition method. Moreover, considering the demands of green and secure communications, by applying Dinkelbach's method, we extend our proposed scheme to solving a secrecy energy maximization problem. Finally, simulation results demonstrate the effectiveness of the proposed design.</description><identifier>ISSN: 2327-4662</identifier><identifier>EISSN: 2327-4662</identifier><identifier>DOI: 10.1109/JIOT.2022.3210115</identifier><identifier>CODEN: IITJAU</identifier><language>eng</language><publisher>Piscataway: IEEE</publisher><subject>Alternating optimization (AO) ; Beamforming ; Eavesdropping ; Internet of Things ; joint beamforming (BF) ; MISO communication ; Modulation ; Optimization ; penalty dual decomposition (PDD) ; Power demand ; Radio frequency ; reconfigurable intelligent surface (RIS) ; secure communication ; Transmitters</subject><ispartof>IEEE internet of things journal, 2023-01, Vol.10 (2), p.1628-1641</ispartof><rights>Copyright The Institute of Electrical and Electronics Engineers, Inc. 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Specifically, we aim to maximize the weighted sum secrecy rate by jointly designing the power allocation, transmit beamforming (BF) of the refracting RIS, and the phase shifts of the reflective RIS. To solve the nonconvex optimization problem, we propose a linearization method to approximate the objective function into a linear form. Then, an alternating optimization (AO) scheme is proposed to jointly optimize the power allocation factors, BF vector, and phase shifts, where the first one is found using the Lagrange dual method, while the latter two are obtained by utilizing the penalty dual decomposition method. Moreover, considering the demands of green and secure communications, by applying Dinkelbach's method, we extend our proposed scheme to solving a secrecy energy maximization problem. Finally, simulation results demonstrate the effectiveness of the proposed design.</description><subject>Alternating optimization (AO)</subject><subject>Beamforming</subject><subject>Eavesdropping</subject><subject>Internet of Things</subject><subject>joint beamforming (BF)</subject><subject>MISO communication</subject><subject>Modulation</subject><subject>Optimization</subject><subject>penalty dual decomposition (PDD)</subject><subject>Power demand</subject><subject>Radio frequency</subject><subject>reconfigurable intelligent surface (RIS)</subject><subject>secure communication</subject><subject>Transmitters</subject><issn>2327-4662</issn><issn>2327-4662</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2023</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNpNkMtKA0EQRRtRMGg-QNw0uJ7Yz5ruhYsYXxOCARPXzTxqwkQzHbsniH_vhARxVVVw7i04hFxxNuKc2dtpNl-OBBNiJAVnnOsTMhBSpIkCEKf_9nMyjHHNWM8wzS0MyN3UN21H7zHf1D5smnZFHzA2q5b2J11guQtI37JFMo6xiR1WNPNL-ordtw8f8ZKc1flnxOFxXpD3p8fl5CWZzZ-zyXiWlFJCl6SaM1UapVhqLFaF1aAANYPapLwAVVvFilqCsLkqtDRVaaBCSHUlpLbCygtyc-jdBv-1w9i5td-Ftn_pRApcgrFM9hQ_UGXwMQas3TY0mzz8OM7cXpTbi3J7Ue4oqs9cHzINIv7xtq8zCuQvUBVg8g</recordid><startdate>20230115</startdate><enddate>20230115</enddate><creator>Niu, Hehao</creator><creator>Lin, Zhi</creator><creator>Chu, Zheng</creator><creator>Zhu, Zhengyu</creator><creator>Xiao, Pei</creator><creator>Nguyen, Huan X.</creator><creator>Lee, Inkyu</creator><creator>Al-Dhahir, Naofal</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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Specifically, we aim to maximize the weighted sum secrecy rate by jointly designing the power allocation, transmit beamforming (BF) of the refracting RIS, and the phase shifts of the reflective RIS. To solve the nonconvex optimization problem, we propose a linearization method to approximate the objective function into a linear form. Then, an alternating optimization (AO) scheme is proposed to jointly optimize the power allocation factors, BF vector, and phase shifts, where the first one is found using the Lagrange dual method, while the latter two are obtained by utilizing the penalty dual decomposition method. Moreover, considering the demands of green and secure communications, by applying Dinkelbach's method, we extend our proposed scheme to solving a secrecy energy maximization problem. 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subjects	Alternating optimization (AO) Beamforming Eavesdropping Internet of Things joint beamforming (BF) MISO communication Modulation Optimization penalty dual decomposition (PDD) Power demand Radio frequency reconfigurable intelligent surface (RIS) secure communication Transmitters
title	Joint Beamforming Design for Secure RIS-Assisted IoT Networks
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