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Optical OTFS Is capable of improving the bandwidth-, power- and energy-efficiency of optical OFDM

Optical OTFS Is capable of improving the bandwidth-, power- and energy-efficiency of optical OFDM
Optical OTFS Is capable of improving the bandwidth-, power- and energy-efficiency of optical OFDM
We demonstrate that the proposed optical orthogonal time frequency space (O-OTFS) is capable of improving the bandwidth-/power-/energy-efficiencies of optical orthogonal frequency-division multiplexing (O-OFDM). The bandwidth-efficiency is improved because only a single cyclic prefix (CP) is needed for an entire O-OTFS frame. The power-efficiency is enhanced thanks to the diversity gain achieved by its symplectic finite Fourier transform (SFFT), which also leads to a reduced peak-to-average power ratio (PAPR), hence improving its energy-efficiency. These features are facilitated by the proposed layered asymmetrically clipped O-OTFS (LACO-OTFS), which is capable of removing the direct current (DC) bias while retaining the full optical throughput. Nonetheless, there exists an inherent trade-off, where increasing the O-OTFS frame size leads to a commensurately reduced CP percentage at the cost of an increased PAPR. In order to mitigate this, we propose to perform discrete Fourier transform based spreading (DFT-S) in the delay-Doppler (DD)-domain. Furthermore, we demonstrate that regardless of the choice of domain in which the information is modulated (i.e. O-OFDM/O-OTFS with/without DFT-S), the frequency-selectivity of the quasi-static but dispersive optical channel can always be equalized by single-tap frequency-domain equalization (FDE). Moreover, the channel estimation techniques are conceived to operate in the time-/frequency-/DD-domains for both O-OFDM and O-OTFS. Our simulation results demonstrate that for a multi-user optical wireless system associated with M = 64 subcarriers and the OTFS frame length of N = 64, LACO-OTFS is capable of achieving a 7 dB power-efficiency gain over LACO-OFDM, where the CP overhead is reduced by a factor of N = 64. DFT-S-LACO-OTFS is also capable of providing a 7 dB power-efficiency gain over DFT-S-LACO-OFDM, where the low PAPR of single-carrier transmission is retained.
channel estimation, cyclic prefix, DCO-OFDM, DFT-spreading, Frequency modulation, frequency-domain equalization, Integrated optics, LACO-OFDM, multi-access, Optical distortion, optical fiber communications, Optical modulation, Optical OFDM, optical OTFS, Optical receivers, Optical sensors, optical wireless, Peak to average power ratio, peak-to-average power ratio, visible light comunications, wireless near-infrared communications
0090-6778
Xu, Chao
5710a067-6320-4f5a-8689-7881f6c46252
Zhang, Xiaoyu
ba39d478-405a-4f41-955b-300e464048b3
Petropoulos, Periklis
522b02cc-9f3f-468e-bca5-e9f58cc9cad7
Sugiura, Shinya
0f1b2d3e-e804-4bc9-8507-1a057c460239
Maunder, Rob
76099323-7d58-4732-a98f-22a662ccba6c
Yang, Lie-Liang
ae425648-d9a3-4b7d-8abd-b3cfea375bc7
Wang, Zhaocheng
70339538-3970-4094-bcfc-1b5111dfd8b4
Yuan, Jinghong
d901b09a-1dd5-4d7f-93ad-7f421e099a87
Harald, Haas
92c94b55-8aee-4590-90f3-540fd050b003
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Xu, Chao
5710a067-6320-4f5a-8689-7881f6c46252
Zhang, Xiaoyu
ba39d478-405a-4f41-955b-300e464048b3
Petropoulos, Periklis
522b02cc-9f3f-468e-bca5-e9f58cc9cad7
Sugiura, Shinya
0f1b2d3e-e804-4bc9-8507-1a057c460239
Maunder, Rob
76099323-7d58-4732-a98f-22a662ccba6c
Yang, Lie-Liang
ae425648-d9a3-4b7d-8abd-b3cfea375bc7
Wang, Zhaocheng
70339538-3970-4094-bcfc-1b5111dfd8b4
Yuan, Jinghong
d901b09a-1dd5-4d7f-93ad-7f421e099a87
Harald, Haas
92c94b55-8aee-4590-90f3-540fd050b003
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1

Xu, Chao, Zhang, Xiaoyu, Petropoulos, Periklis, Sugiura, Shinya, Maunder, Rob, Yang, Lie-Liang, Wang, Zhaocheng, Yuan, Jinghong, Harald, Haas and Hanzo, Lajos (2023) Optical OTFS Is capable of improving the bandwidth-, power- and energy-efficiency of optical OFDM. IEEE Transactions on Communications. (doi:10.1109/TCOMM.2023.3326494).

Record type: Article

Abstract

We demonstrate that the proposed optical orthogonal time frequency space (O-OTFS) is capable of improving the bandwidth-/power-/energy-efficiencies of optical orthogonal frequency-division multiplexing (O-OFDM). The bandwidth-efficiency is improved because only a single cyclic prefix (CP) is needed for an entire O-OTFS frame. The power-efficiency is enhanced thanks to the diversity gain achieved by its symplectic finite Fourier transform (SFFT), which also leads to a reduced peak-to-average power ratio (PAPR), hence improving its energy-efficiency. These features are facilitated by the proposed layered asymmetrically clipped O-OTFS (LACO-OTFS), which is capable of removing the direct current (DC) bias while retaining the full optical throughput. Nonetheless, there exists an inherent trade-off, where increasing the O-OTFS frame size leads to a commensurately reduced CP percentage at the cost of an increased PAPR. In order to mitigate this, we propose to perform discrete Fourier transform based spreading (DFT-S) in the delay-Doppler (DD)-domain. Furthermore, we demonstrate that regardless of the choice of domain in which the information is modulated (i.e. O-OFDM/O-OTFS with/without DFT-S), the frequency-selectivity of the quasi-static but dispersive optical channel can always be equalized by single-tap frequency-domain equalization (FDE). Moreover, the channel estimation techniques are conceived to operate in the time-/frequency-/DD-domains for both O-OFDM and O-OTFS. Our simulation results demonstrate that for a multi-user optical wireless system associated with M = 64 subcarriers and the OTFS frame length of N = 64, LACO-OTFS is capable of achieving a 7 dB power-efficiency gain over LACO-OFDM, where the CP overhead is reduced by a factor of N = 64. DFT-S-LACO-OTFS is also capable of providing a 7 dB power-efficiency gain over DFT-S-LACO-OFDM, where the low PAPR of single-carrier transmission is retained.

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LACO_OTFS_TCOM_Accept_two_col - Accepted Manuscript
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Accepted/In Press date: 16 October 2023
e-pub ahead of print date: 23 October 2023
Keywords: channel estimation, cyclic prefix, DCO-OFDM, DFT-spreading, Frequency modulation, frequency-domain equalization, Integrated optics, LACO-OFDM, multi-access, Optical distortion, optical fiber communications, Optical modulation, Optical OFDM, optical OTFS, Optical receivers, Optical sensors, optical wireless, Peak to average power ratio, peak-to-average power ratio, visible light comunications, wireless near-infrared communications
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Identifiers

Local EPrints ID: 483495
URI: http://eprints.soton.ac.uk/id/eprint/483495
DOI: doi:10.1109/TCOMM.2023.3326494
ISSN: 0090-6778
PURE UUID: 671e3ba1-0cc0-49b4-90a0-4a336c9ad8ce
ORCID for Chao Xu: ORCID iD orcid.org/0000-0002-8423-0342
ORCID for Xiaoyu Zhang: ORCID iD orcid.org/0000-0002-0793-889X
ORCID for Periklis Petropoulos: ORCID iD orcid.org/0000-0002-1576-8034
ORCID for Rob Maunder: ORCID iD orcid.org/0000-0002-7944-2615
ORCID for Lie-Liang Yang: ORCID iD orcid.org/0000-0002-2032-9327
ORCID for Lajos Hanzo: ORCID iD orcid.org/0000-0002-2636-5214

Catalogue record

Date deposited: 31 Oct 2023 18:21
Last modified: 24 Apr 2024 01:44

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Contributors

Author: Chao Xu ORCID iD
Author: Xiaoyu Zhang ORCID iD
Author: Periklis Petropoulos ORCID iD
Author: Shinya Sugiura
Author: Rob Maunder ORCID iD
Author: Lie-Liang Yang ORCID iD
Author: Zhaocheng Wang
Author: Jinghong Yuan
Author: Haas Harald
Author: Lajos Hanzo ORCID iD

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