Hybrid beamforming assisted OTFS-based CV-QKD systems for doubly selective THz channels
Hybrid beamforming assisted OTFS-based CV-QKD systems for doubly selective THz channels
Continuous-variable quantum key distribution (CV-QKD) maps information onto the quadrature components of electromagnetic waves, so that off-the-shelf wireless transceivers can be utilized. This motivates the move from optical to Terahertz (THz) bands. However, wireless THz channels suffer from severe path loss, while the mobility of wireless users imposes doubly selective fading. Against this background, we propose a new CV-QKD regime that relies on hybrid beamforming (HBF) assisted multiple-input multiple-output (MIMO) orthogonal frequency division multiplexing (OFDM) and orthogonal time frequency space (OTFS) system, where the channel’s transmissivity and robustness against double selectivity are overcome by HBF and OTFS, respectively. Secondly, in order to provide channel state information (CSI) for both the transmitter (CSI-T) and receiver (CSI-R), practical channel estimation methods are conceived. They operate in the time-frequency domain for OFDM and in the delay-Doppler domain for OTFS. Thirdly, soft-decision detection is devised for our MIMO OFDM/OTFS aided multi-dimensional reconciliation (MDR) scheme. Low-density parity-check (LDPC) coding is invoked for further improving secure CV-QKD transmission distance in the THz band. Our simulation results demonstrate that the proposed HBF MIMO OTFS-based CV-QKD system relying on realistic estimated CSI is capable of achieving an adequate secret key rate (SKR) and secure transmission distance in hostile doubly selective THz channels.
Liu, Xin
18299dbd-af76-4728-ac01-76eb68b2d76a
Xu, Chao
5710a067-6320-4f5a-8689-7881f6c46252
Wang, Stephen
3300df08-e9ba-46b5-a782-735ba747f908
Ng, Soon Xin
e19a63b0-0f12-4591-ab5f-554820d5f78c
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Liu, Xin
18299dbd-af76-4728-ac01-76eb68b2d76a
Xu, Chao
5710a067-6320-4f5a-8689-7881f6c46252
Wang, Stephen
3300df08-e9ba-46b5-a782-735ba747f908
Ng, Soon Xin
e19a63b0-0f12-4591-ab5f-554820d5f78c
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Liu, Xin, Xu, Chao, Wang, Stephen, Ng, Soon Xin and Hanzo, Lajos
(2025)
Hybrid beamforming assisted OTFS-based CV-QKD systems for doubly selective THz channels.
IEEE Transactions on Communications.
(doi:10.1109/TCOMM.2025.3585501).
Abstract
Continuous-variable quantum key distribution (CV-QKD) maps information onto the quadrature components of electromagnetic waves, so that off-the-shelf wireless transceivers can be utilized. This motivates the move from optical to Terahertz (THz) bands. However, wireless THz channels suffer from severe path loss, while the mobility of wireless users imposes doubly selective fading. Against this background, we propose a new CV-QKD regime that relies on hybrid beamforming (HBF) assisted multiple-input multiple-output (MIMO) orthogonal frequency division multiplexing (OFDM) and orthogonal time frequency space (OTFS) system, where the channel’s transmissivity and robustness against double selectivity are overcome by HBF and OTFS, respectively. Secondly, in order to provide channel state information (CSI) for both the transmitter (CSI-T) and receiver (CSI-R), practical channel estimation methods are conceived. They operate in the time-frequency domain for OFDM and in the delay-Doppler domain for OTFS. Thirdly, soft-decision detection is devised for our MIMO OFDM/OTFS aided multi-dimensional reconciliation (MDR) scheme. Low-density parity-check (LDPC) coding is invoked for further improving secure CV-QKD transmission distance in the THz band. Our simulation results demonstrate that the proposed HBF MIMO OTFS-based CV-QKD system relying on realistic estimated CSI is capable of achieving an adequate secret key rate (SKR) and secure transmission distance in hostile doubly selective THz channels.
Text
OFDM_OTFS_FEC_CV_QKD_SVD_Xin_TCOM_final
- Accepted Manuscript
More information
e-pub ahead of print date: 3 July 2025
Identifiers
Local EPrints ID: 503594
URI: http://eprints.soton.ac.uk/id/eprint/503594
ISSN: 0090-6778
PURE UUID: 8dcd4b76-1ec0-4704-896b-c52131dc0299
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Date deposited: 05 Aug 2025 17:03
Last modified: 06 Aug 2025 01:44
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Contributors
Author:
Xin Liu
Author:
Chao Xu
Author:
Stephen Wang
Author:
Soon Xin Ng
Author:
Lajos Hanzo
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