On performance of distributed RIS-aided communication in random networks
This paper evaluates the geometrically averaged performance of a wireless communication network assisted by a multitude of distributed reconfigurable intelligent surfaces (RISs), where the RIS locations are randomly dropped obeying a homogeneous Poisson point process. By exploiting stochastic geomet...
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sg-ntu-dr.10356-1823692025-01-27T02:47:52Z On performance of distributed RIS-aided communication in random networks Xu, Jindan Xu, Wei Yuen, Chau School of Electrical and Electronic Engineering Engineering Distributed reconfigurable intelligent surfaces Phase shift error This paper evaluates the geometrically averaged performance of a wireless communication network assisted by a multitude of distributed reconfigurable intelligent surfaces (RISs), where the RIS locations are randomly dropped obeying a homogeneous Poisson point process. By exploiting stochastic geometry and then averaging over the random locations of RISs as well as the serving user, we first derive a closed-form expression for the spatially ergodic rate in the presence of phase errors at the RISs in practice. Armed with this closed-form characterization, we then optimize the RIS deployment under a reasonable and fair constraint of a total number of RIS elements per unit area. The optimal configurations in terms of key network parameters, including the RIS deployment density and the array sizes of RISs, are disclosed for the spatially ergodic rate maximization. Our findings suggest that deploying larger-size RISs with reduced deployment density is theoretically preferred to support extended RIS coverages, under the cases of bounded phase shift errors. However, when dealing with random phase shifts, the reflecting elements are recommended to spread out as much as possible, disregarding the deployment cost.Furthermore, the spatially ergodic rate loss due to the phase shift errors is quantitatively characterized. For bounded phase shift errors, the rate loss is eventually upper bounded by a constant as N ∞, where N is the number of reflecting elements at each RIS. While for random phase shifts, this rate loss scales up in the order of N These analytical observations are validated through numerical results. Info-communications Media Development Authority (IMDA) Ministry of Education (MOE) The work of Chau Yuen was supported by the Ministry of Education (MOE), Singapore, through its MOE Tier 2, under Award MOE-T2EP50220-0019; and in part by Infocomm Media Development Authority through its Future Communications Research and Development Program under Grant FCP-NTU-RG-2024-025. 2025-01-27T02:47:51Z 2025-01-27T02:47:51Z 2024 Journal Article Xu, J., Xu, W. & Yuen, C. (2024). On performance of distributed RIS-aided communication in random networks. IEEE Transactions On Wireless Communications, 23(12), 18254-18270. https://dx.doi.org/10.1109/TWC.2024.3463796 1536-1276 https://hdl.handle.net/10356/182369 10.1109/TWC.2024.3463796 2-s2.0-85205286781 12 23 18254 18270 en MOE-T2EP50220-0019 FCP-NTU-RG-2024-025 IEEE Transactions on Wireless Communications © 2024 IEEE. All rights reserved. |
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Engineering Distributed reconfigurable intelligent surfaces Phase shift error |
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Engineering Distributed reconfigurable intelligent surfaces Phase shift error Xu, Jindan Xu, Wei Yuen, Chau On performance of distributed RIS-aided communication in random networks |
| description |
This paper evaluates the geometrically averaged performance of a wireless communication network assisted by a multitude of distributed reconfigurable intelligent surfaces (RISs), where the RIS locations are randomly dropped obeying a homogeneous Poisson point process. By exploiting stochastic geometry and then averaging over the random locations of RISs as well as the serving user, we first derive a closed-form expression for the spatially ergodic rate in the presence of phase errors at the RISs in practice. Armed with this closed-form characterization, we then optimize the RIS deployment under a reasonable and fair constraint of a total number of RIS elements per unit area. The optimal configurations in terms of key network parameters, including the RIS deployment density and the array sizes of RISs, are disclosed for the spatially ergodic rate maximization. Our findings suggest that deploying larger-size RISs with reduced deployment density is theoretically preferred to support extended RIS coverages, under the cases of bounded phase shift errors. However, when dealing with random phase shifts, the reflecting elements are recommended to spread out as much as possible, disregarding the deployment cost.Furthermore, the spatially ergodic rate loss due to the phase shift errors is quantitatively characterized. For bounded phase shift errors, the rate loss is eventually upper bounded by a constant as N ∞, where N is the number of reflecting elements at each RIS. While for random phase shifts, this rate loss scales up in the order of N These analytical observations are validated through numerical results. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Xu, Jindan Xu, Wei Yuen, Chau |
| format |
Article |
| author |
Xu, Jindan Xu, Wei Yuen, Chau |
| author_sort |
Xu, Jindan |
| title |
On performance of distributed RIS-aided communication in random networks |
| title_short |
On performance of distributed RIS-aided communication in random networks |
| title_full |
On performance of distributed RIS-aided communication in random networks |
| title_fullStr |
On performance of distributed RIS-aided communication in random networks |
| title_full_unstemmed |
On performance of distributed RIS-aided communication in random networks |
| title_sort |
on performance of distributed ris-aided communication in random networks |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/182369 |
| _version_ |
1823108707449307136 |