Multi-dimensional sparse CSI acquisition for hybrid mmWave MIMO OTFS systems
Multi-dimensional sparse CSI acquisition for hybrid mmWave MIMO OTFS systems
Multi-dimensional sparse channel state information (CSI) acquisition is conceived for Orthogonal time frequency space (OTFS) modulation-based millimetre wave (mmWave) multiple input and multiple output (MIMO) systems. A comprehensive end-to-end relationship is derived in the delay-Doppler (DDA) domain by additionally considering the angular parameters and a hybrid beamforming (HB) architecture. A time-domain pilot model tailored for CSI estimation (CE) in the DDA-domain is proposed, which exploits the inherent multi-dimensional (4D) sparsity that emerges in the DDA-domain during the CE process. An efficient low-complexity Bayesian learning (LC-BL) technique is conceived to fulfil the objective of CSI estimation in such systems. Subsequently, a comprehensive examination of the complexity of the algorithm under consideration is also provided. It is worth noting that the complexity of the BL scheme designed is similar to that of popular orthogonal matching pursuit (OMP), but significantly lower than that of the traditional expectation-maximization (EM) based BL technique. Moreover, a single-stage transmit precoder (TPC) and receiver combiner (RC) design is proposed. This procedure aims for maximizing the directional gain of the RF TPC/RC pair by optimizing their weights. Additionally, a series of comprehensive simulations are conducted which incorporate the use of a practical channel model and fractional Doppler shifts. In light of the inherent trade-offs between complexity and estimation algorithm performance, our proposed scheme, LC-BL, appears suitable, especially considering the substantial enhancement in the performance of CE compared to the existing benchmarks.
channel estimation, delay-Doppler-angular domain, high-mobility, hybrid precoding, MIMO, mmWave, OTFS, sparsity
Mehrotra, Anand
8fea1693-db94-4f75-a91d-1210fbea2fcd
Singh, Jitendra
a98cf279-387d-412e-b5f8-8f1d623f3607
Srivastava, Suraj
a90b79db-5004-4786-9e40-995bd5ce2606
Kumar Singh, Rahul
5bf0c2f9-c5c0-426f-b9dc-8ee278f0afe8
Jagannatham, Aditya K.
6bf39c17-fdd3-4f79-9d5c-47b5e2e51098
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
10 March 2025
Mehrotra, Anand
8fea1693-db94-4f75-a91d-1210fbea2fcd
Singh, Jitendra
a98cf279-387d-412e-b5f8-8f1d623f3607
Srivastava, Suraj
a90b79db-5004-4786-9e40-995bd5ce2606
Kumar Singh, Rahul
5bf0c2f9-c5c0-426f-b9dc-8ee278f0afe8
Jagannatham, Aditya K.
6bf39c17-fdd3-4f79-9d5c-47b5e2e51098
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Mehrotra, Anand, Singh, Jitendra, Srivastava, Suraj, Kumar Singh, Rahul, Jagannatham, Aditya K. and Hanzo, Lajos
(2025)
Multi-dimensional sparse CSI acquisition for hybrid mmWave MIMO OTFS systems.
IEEE Transactions on Communications.
(doi:10.1109/TCOMM.2025.3549501).
Abstract
Multi-dimensional sparse channel state information (CSI) acquisition is conceived for Orthogonal time frequency space (OTFS) modulation-based millimetre wave (mmWave) multiple input and multiple output (MIMO) systems. A comprehensive end-to-end relationship is derived in the delay-Doppler (DDA) domain by additionally considering the angular parameters and a hybrid beamforming (HB) architecture. A time-domain pilot model tailored for CSI estimation (CE) in the DDA-domain is proposed, which exploits the inherent multi-dimensional (4D) sparsity that emerges in the DDA-domain during the CE process. An efficient low-complexity Bayesian learning (LC-BL) technique is conceived to fulfil the objective of CSI estimation in such systems. Subsequently, a comprehensive examination of the complexity of the algorithm under consideration is also provided. It is worth noting that the complexity of the BL scheme designed is similar to that of popular orthogonal matching pursuit (OMP), but significantly lower than that of the traditional expectation-maximization (EM) based BL technique. Moreover, a single-stage transmit precoder (TPC) and receiver combiner (RC) design is proposed. This procedure aims for maximizing the directional gain of the RF TPC/RC pair by optimizing their weights. Additionally, a series of comprehensive simulations are conducted which incorporate the use of a practical channel model and fractional Doppler shifts. In light of the inherent trade-offs between complexity and estimation algorithm performance, our proposed scheme, LC-BL, appears suitable, especially considering the substantial enhancement in the performance of CE compared to the existing benchmarks.
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Final Manuscript
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Accepted/In Press date: 4 March 2025
Published date: 10 March 2025
Keywords:
channel estimation, delay-Doppler-angular domain, high-mobility, hybrid precoding, MIMO, mmWave, OTFS, sparsity
Identifiers
Local EPrints ID: 499700
URI: http://eprints.soton.ac.uk/id/eprint/499700
ISSN: 0090-6778
PURE UUID: bc45fdd8-3685-4d4a-92a1-d24ed037d1ab
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Date deposited: 01 Apr 2025 16:33
Last modified: 19 Aug 2025 01:33
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Contributors
Author:
Anand Mehrotra
Author:
Jitendra Singh
Author:
Suraj Srivastava
Author:
Rahul Kumar Singh
Author:
Aditya K. Jagannatham
Author:
Lajos Hanzo
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