TY - GEN
T1 - Low-Overhead Channel Estimation for Beyond Diagonal Reconfigurable Intelligent Surface Aided Single-User Communication
AU - Wang, Rui
AU - Zhang, Shuowen
AU - Liu, Liang
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024/10
Y1 - 2024/10
N2 - We explore channel estimation for a beyond diagonal reconfigurable intelligent surface (BD-RIS) aided single-user communication system. We first reveal a pivotal property within the cascaded channel that can be leveraged to dramatically reduce the channel estimation overhead, which, to the best of our knowledge, has not been exploited in existing literature. Owing to the interconnections among the BD-RIS elements, the cascaded channels associated to different elements share a common RIS-BS channel component. Consequently, the coefficients in these cascaded channels exhibit a high degree of correlation, enabling a substantial reduction in the number of independent channel coefficients to be estimated. Building upon this finding, we propose a novel two-phase channel estimation strategy in the uplink communication. Specifically, in Phase I, the cascaded channel associated to the reference BD-RIS element is estimated; while in Phase II, the correlation coefficients of the other BD-RIS elements are estimated. Under this strategy, it is theoretically demonstrated that the number of time instants required for perfect channel estimation is merely twice the number of BD-RIS elements in the ideal case without BS noise. Furthermore, in the case with BS noise, we show by simulation that the channel estimation error under our proposed scheme is markedly lower than that of the least square (LS) estimation scheme proposed in [1], attributed to the exploitation of the channel's inherent property.
AB - We explore channel estimation for a beyond diagonal reconfigurable intelligent surface (BD-RIS) aided single-user communication system. We first reveal a pivotal property within the cascaded channel that can be leveraged to dramatically reduce the channel estimation overhead, which, to the best of our knowledge, has not been exploited in existing literature. Owing to the interconnections among the BD-RIS elements, the cascaded channels associated to different elements share a common RIS-BS channel component. Consequently, the coefficients in these cascaded channels exhibit a high degree of correlation, enabling a substantial reduction in the number of independent channel coefficients to be estimated. Building upon this finding, we propose a novel two-phase channel estimation strategy in the uplink communication. Specifically, in Phase I, the cascaded channel associated to the reference BD-RIS element is estimated; while in Phase II, the correlation coefficients of the other BD-RIS elements are estimated. Under this strategy, it is theoretically demonstrated that the number of time instants required for perfect channel estimation is merely twice the number of BD-RIS elements in the ideal case without BS noise. Furthermore, in the case with BS noise, we show by simulation that the channel estimation error under our proposed scheme is markedly lower than that of the least square (LS) estimation scheme proposed in [1], attributed to the exploitation of the channel's inherent property.
KW - Beyond diagonal reconfigurable intelligent surfaces
KW - channel estimation
KW - single user
UR - http://www.scopus.com/inward/record.url?scp=85217571256&partnerID=8YFLogxK
U2 - 10.1109/WCSP62071.2024.10827402
DO - 10.1109/WCSP62071.2024.10827402
M3 - Conference article published in proceeding or book
AN - SCOPUS:85217571256
T3 - 16th International Conference on Wireless Communications and Signal Processing, WCSP 2024
SP - 305
EP - 310
BT - 16th International Conference on Wireless Communications and Signal Processing, WCSP 2024
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 16th International Conference on Wireless Communications and Signal Processing, WCSP 2024
Y2 - 24 October 2024 through 26 October 2024
ER -