Phase and 3-D Placement Optimization for Rate Enhancement in RIS-Assisted UAV Networks

Maham Misbah; Zeeshan Kaleem; Waqas Khalid; Chau Yuen; Abbas Jamalipour

doi:10.1109/LWC.2023.3263224

Phase and 3-D Placement Optimization for Rate Enhancement in RIS-Assisted UAV Networks

Maham Misbah
, Zeeshan Kaleem^*
, Waqas Khalid
, Chau Yuen
, Abbas Jamalipour

^*Corresponding author for this work

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

43 Scopus citations

Abstract

In this letter, we aim at improving the system sum-rate performance of an assisted aerial base station (ABS) network by considering use of reconfigurable intelligent surface (RIS). We jointly optimize the RIS phase shifts and ABS altitudes using the proposed conjugate gradient and particle swarm optimization (CG-PSO) scheme. Moreover, we divide the problem into sub-problems and solve them using an alternative optimization method. First, an optimal RIS phase shift is computed using the conjugate gradient (CG) under the fixed ABS altitude and varying transmit power. Finally, we find the optimal ABS altitude using particle swarm optimization (PSO), which results in improved sum rate under the optimized RIS phase shift. The results show that the CG-PSO scheme significantly improves the system sum rate compared to the baseline schemes.

Original language	English
Pages (from-to)	1135-1138
Number of pages	4
Journal	IEEE Wireless Communications Letters
Volume	12
Issue number	7
DOIs	https://doi.org/10.1109/LWC.2023.3263224
State	Published - 1 Jul 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2012 IEEE.

Keywords

ABS deployment
particle swarm optimization
RIS phase shifts
sum rate enhancement

ASJC Scopus subject areas

Control and Systems Engineering
Electrical and Electronic Engineering

Access to Document

10.1109/LWC.2023.3263224

Cite this

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title = "Phase and 3-D Placement Optimization for Rate Enhancement in RIS-Assisted UAV Networks",

abstract = "In this letter, we aim at improving the system sum-rate performance of an assisted aerial base station (ABS) network by considering use of reconfigurable intelligent surface (RIS). We jointly optimize the RIS phase shifts and ABS altitudes using the proposed conjugate gradient and particle swarm optimization (CG-PSO) scheme. Moreover, we divide the problem into sub-problems and solve them using an alternative optimization method. First, an optimal RIS phase shift is computed using the conjugate gradient (CG) under the fixed ABS altitude and varying transmit power. Finally, we find the optimal ABS altitude using particle swarm optimization (PSO), which results in improved sum rate under the optimized RIS phase shift. The results show that the CG-PSO scheme significantly improves the system sum rate compared to the baseline schemes.",

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author = "Maham Misbah and Zeeshan Kaleem and Waqas Khalid and Chau Yuen and Abbas Jamalipour",

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doi = "10.1109/LWC.2023.3263224",

language = "English",

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AU - Misbah, Maham

AU - Kaleem, Zeeshan

AU - Khalid, Waqas

AU - Yuen, Chau

AU - Jamalipour, Abbas

PY - 2023/7/1

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AB - In this letter, we aim at improving the system sum-rate performance of an assisted aerial base station (ABS) network by considering use of reconfigurable intelligent surface (RIS). We jointly optimize the RIS phase shifts and ABS altitudes using the proposed conjugate gradient and particle swarm optimization (CG-PSO) scheme. Moreover, we divide the problem into sub-problems and solve them using an alternative optimization method. First, an optimal RIS phase shift is computed using the conjugate gradient (CG) under the fixed ABS altitude and varying transmit power. Finally, we find the optimal ABS altitude using particle swarm optimization (PSO), which results in improved sum rate under the optimized RIS phase shift. The results show that the CG-PSO scheme significantly improves the system sum rate compared to the baseline schemes.

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KW - particle swarm optimization

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KW - sum rate enhancement

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Phase and 3-D Placement Optimization for Rate Enhancement in RIS-Assisted UAV Networks

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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