Achievable rate analysis of the STAR-RIS aided NOMA uplink in the face of imperfect CSI and hardware impairments
Achievable rate analysis of the STAR-RIS aided NOMA uplink in the face of imperfect CSI and hardware impairments
Reconfigurable intelligent surfaces (RIS) are capable of beneficially ameliorating the propagation environment by appropriately controlling the passive reflecting elements. To extend the coverage area, the concept of simultaneous transmitting and reflecting reconfigurable intelligent surfaces (STAR-RIS) has been proposed, yielding supporting 360$^\circ$ coverage user equipment (UE) located on both sides of the RIS. In this paper, we theoretically formulate the ergodic sum-rate of the STAR-RIS assisted non-orthogonal multiple access (NOMA) uplink in the face of channel estimation errors and hardware impairments (HWI). Specifically, the STAR-RIS phase shift is configured based on the statistical channel state information (CSI), followed by linear minimum mean square error (LMMSE) channel estimation of the equivalent channel spanning from the UEs to the access point (AP). Afterwards, successive interference cancellation (SIC) is employed at the AP using the estimated instantaneous CSI, and we derive the theoretical ergodic sum-rate upper bound for both perfect and imperfect SIC decoding algorithm. The theoretical analysis and the simulation results show that both the channel estimation and the ergodic sum-rate have performance floor at high transmit power region caused by transceiver hardware impairments.
Li, Qingchao
69625501-d192-4a81-861f-f7ac9dd1e882
El-Hajjar, Mohammed
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Sun, Yanshi
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Hemadeh, Ibrahim
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Shojaeifard, Arman
a2b98bfd-74d2-4b8c-aa8b-839b5a8c4e4c
Liu, Yuanwei
2767c2bc-6199-4106-ac28-81c3dadcfa29
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Li, Qingchao
69625501-d192-4a81-861f-f7ac9dd1e882
El-Hajjar, Mohammed
3a829028-a427-4123-b885-2bab81a44b6f
Sun, Yanshi
df2b0b03-ddc1-4b0a-8216-d4b095c50dd5
Hemadeh, Ibrahim
11f27b54-e3da-4699-bc72-9a3508e76ccf
Shojaeifard, Arman
a2b98bfd-74d2-4b8c-aa8b-839b5a8c4e4c
Liu, Yuanwei
2767c2bc-6199-4106-ac28-81c3dadcfa29
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Li, Qingchao, El-Hajjar, Mohammed, Sun, Yanshi, Hemadeh, Ibrahim, Shojaeifard, Arman, Liu, Yuanwei and Hanzo, Lajos
(2023)
Achievable rate analysis of the STAR-RIS aided NOMA uplink in the face of imperfect CSI and hardware impairments.
IEEE Transactions on Communications.
(In Press)
Abstract
Reconfigurable intelligent surfaces (RIS) are capable of beneficially ameliorating the propagation environment by appropriately controlling the passive reflecting elements. To extend the coverage area, the concept of simultaneous transmitting and reflecting reconfigurable intelligent surfaces (STAR-RIS) has been proposed, yielding supporting 360$^\circ$ coverage user equipment (UE) located on both sides of the RIS. In this paper, we theoretically formulate the ergodic sum-rate of the STAR-RIS assisted non-orthogonal multiple access (NOMA) uplink in the face of channel estimation errors and hardware impairments (HWI). Specifically, the STAR-RIS phase shift is configured based on the statistical channel state information (CSI), followed by linear minimum mean square error (LMMSE) channel estimation of the equivalent channel spanning from the UEs to the access point (AP). Afterwards, successive interference cancellation (SIC) is employed at the AP using the estimated instantaneous CSI, and we derive the theoretical ergodic sum-rate upper bound for both perfect and imperfect SIC decoding algorithm. The theoretical analysis and the simulation results show that both the channel estimation and the ergodic sum-rate have performance floor at high transmit power region caused by transceiver hardware impairments.
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Accepted/In Press date: 13 June 2023
Identifiers
Local EPrints ID: 477788
URI: http://eprints.soton.ac.uk/id/eprint/477788
ISSN: 0090-6778
PURE UUID: b0c9cc11-73f5-47b6-b743-e1ccb60105a8
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Date deposited: 14 Jun 2023 16:47
Last modified: 18 Mar 2024 02:36
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Contributors
Author:
Qingchao Li
Author:
Mohammed El-Hajjar
Author:
Yanshi Sun
Author:
Ibrahim Hemadeh
Author:
Arman Shojaeifard
Author:
Yuanwei Liu
Author:
Lajos Hanzo
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