Active RIS Deployment Design and Its Detailed Optimal Solution under Overall Power Constraint

Wenjun Jiao; Wei Duan; Shuping Dang; Limei Peng; Wael Bazzi; Shahid Mumtaz; Pin-Han Ho

doi:10.1109/TVT.2025.3632283

Active RIS Deployment Design and Its Detailed Optimal Solution under Overall Power Constraint

Wenjun Jiao, Wei Duan^*, Shuping Dang, Limei Peng, Wael Bazzi, Shahid Mumtaz, Pin-Han Ho

^*Corresponding author for this work

School of Electrical, Electronic and Mechanical Engineering

Research output: Contribution to journal › Article (Academic Journal) › peer-review

Abstract

In this correspondence, we comprehensively study the optimal active reconfigurable intelligent surface (ARIS) deployment, aiming to address the open issue of its deployment details. For practical consideration, the overall power constraint is introduced into ARIS-assisted communications, including the transmit power at base station (BS) and amplifying power for signal reflection at ARIS. To better clarify the influence of ARIS deployment and power allocation on the achievable capacity, we first optimize the power allocation between BS and ARIS, then analyze the ARIS position. Subsequently, regarding to two de pendent variables, an effective alternating optimization algorithm is further investigated to obtain the optimal amplifying factor of ARIS. Finally, simulation and numerical results confirming the correctness of our analysis, conclude that, when the amplifying power of ARIS is large, ARIS should be deployed close to BS to achieve a better capacity, and vice versa.

Original language	English
Number of pages	6
Journal	IEEE Transactions on Vehicular Technology
Early online date	13 Nov 2025
DOIs	https://doi.org/10.1109/TVT.2025.3632283
Publication status	E-pub ahead of print - 13 Nov 2025

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© 2025 IEEE.

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title = "Active RIS Deployment Design and Its Detailed Optimal Solution under Overall Power Constraint",

abstract = "In this correspondence, we comprehensively study the optimal active reconfigurable intelligent surface (ARIS) deployment, aiming to address the open issue of its deployment details. For practical consideration, the overall power constraint is introduced into ARIS-assisted communications, including the transmit power at base station (BS) and amplifying power for signal reflection at ARIS. To better clarify the influence of ARIS deployment and power allocation on the achievable capacity, we first optimize the power allocation between BS and ARIS, then analyze the ARIS position. Subsequently, regarding to two de pendent variables, an effective alternating optimization algorithm is further investigated to obtain the optimal amplifying factor of ARIS. Finally, simulation and numerical results confirming the correctness of our analysis, conclude that, when the amplifying power of ARIS is large, ARIS should be deployed close to BS to achieve a better capacity, and vice versa.",

author = "Wenjun Jiao and Wei Duan and Shuping Dang and Limei Peng and Wael Bazzi and Shahid Mumtaz and Pin-Han Ho",

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AU - Jiao, Wenjun

AU - Duan, Wei

AU - Dang, Shuping

AU - Peng, Limei

AU - Bazzi, Wael

AU - Mumtaz, Shahid

AU - Ho, Pin-Han

PY - 2025/11/13

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N2 - In this correspondence, we comprehensively study the optimal active reconfigurable intelligent surface (ARIS) deployment, aiming to address the open issue of its deployment details. For practical consideration, the overall power constraint is introduced into ARIS-assisted communications, including the transmit power at base station (BS) and amplifying power for signal reflection at ARIS. To better clarify the influence of ARIS deployment and power allocation on the achievable capacity, we first optimize the power allocation between BS and ARIS, then analyze the ARIS position. Subsequently, regarding to two de pendent variables, an effective alternating optimization algorithm is further investigated to obtain the optimal amplifying factor of ARIS. Finally, simulation and numerical results confirming the correctness of our analysis, conclude that, when the amplifying power of ARIS is large, ARIS should be deployed close to BS to achieve a better capacity, and vice versa.

AB - In this correspondence, we comprehensively study the optimal active reconfigurable intelligent surface (ARIS) deployment, aiming to address the open issue of its deployment details. For practical consideration, the overall power constraint is introduced into ARIS-assisted communications, including the transmit power at base station (BS) and amplifying power for signal reflection at ARIS. To better clarify the influence of ARIS deployment and power allocation on the achievable capacity, we first optimize the power allocation between BS and ARIS, then analyze the ARIS position. Subsequently, regarding to two de pendent variables, an effective alternating optimization algorithm is further investigated to obtain the optimal amplifying factor of ARIS. Finally, simulation and numerical results confirming the correctness of our analysis, conclude that, when the amplifying power of ARIS is large, ARIS should be deployed close to BS to achieve a better capacity, and vice versa.

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JF - IEEE Transactions on Vehicular Technology

ER -

Active RIS Deployment Design and Its Detailed Optimal Solution under Overall Power Constraint

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