Energy efficient transmission based on grouped spatial modulation for upstream DSL systems
Energy efficient transmission based on grouped spatial modulation for upstream DSL systems
The digital Subscriber Line (DSL) remains an important component of heterogeneous networking, especially in historic city-centers, where using optical fibre is less realistic. Recently, the power consumption has become an important performance metric in telecommunication due to the associated environmental issues. In the recent bonding model, customer sites have been equipped with two/four copper pairs, which may be exploited for designing grouped spatial modulation (SM) aiming for reducing the power consumption and mitigating the stubborn crosstalk in DSL communications. Explicitly, we view the two pair copper pairs equipped for each user as a group and propose an energy efficient transmission scheme based on grouped SM strategy for the upstream DSL systems, which is capable of reducing the power consumption of the upstream transmitters by activating a single copper line of each user. More especially, in order to compensate for the potential bit-rate reduction imposed by reducing the number of activated lines, the proposed scheme implicitly delivers "virtual bits" via activating/deactivating the lines in addition to the classic modulation scheme. This is particularly beneficial in the DSL context, because the cross-talk imposed by activating several lines may swamp the desired signal. Furthermore, a pair of near-optimal soft turbo detection schemes are proposed for exploiting the unique properties of the DSL channel in order to eliminate the error propagation problem of SM detection routinely encountered in wireless channels. Both the attainable energy-efficiency and the achievable Bit Error Ratio (BER) are investigated. Our simulation results demonstrate that the proposed group-based SM is capable of outperforming the vectoring scheme both in terms of its energy efficiency for all the examined loop lengths and transmit powers. Moreover, the proposed group-based SM is capable of outperforming the vectoring scheme both in terms of its BER performance in lower frequencies and longer serviced DSL loop lengths.
Zhang, Jiankang
6add829f-d955-40ca-8214-27a039defc8a
Xu, Chao
5710a067-6320-4f5a-8689-7881f6c46252
Bai, Tong
58cbdac7-1cea-4346-8fe2-70b4c9f2cc16
Wang, Fasong
bee41a94-0cc4-4b16-9bed-e0f12f12cf9f
Zhong, Shida
53d7aec0-58ef-4673-921b-86e22269675a
Zhang, Jiankang
6add829f-d955-40ca-8214-27a039defc8a
Xu, Chao
5710a067-6320-4f5a-8689-7881f6c46252
Bai, Tong
58cbdac7-1cea-4346-8fe2-70b4c9f2cc16
Wang, Fasong
bee41a94-0cc4-4b16-9bed-e0f12f12cf9f
Zhong, Shida
53d7aec0-58ef-4673-921b-86e22269675a
Zhang, Jiankang, Xu, Chao, Bai, Tong, Wang, Fasong and Zhong, Shida
(2019)
Energy efficient transmission based on grouped spatial modulation for upstream DSL systems.
IEEE Access, 7.
(doi:10.1109/ACCESS.2019.2926063).
Abstract
The digital Subscriber Line (DSL) remains an important component of heterogeneous networking, especially in historic city-centers, where using optical fibre is less realistic. Recently, the power consumption has become an important performance metric in telecommunication due to the associated environmental issues. In the recent bonding model, customer sites have been equipped with two/four copper pairs, which may be exploited for designing grouped spatial modulation (SM) aiming for reducing the power consumption and mitigating the stubborn crosstalk in DSL communications. Explicitly, we view the two pair copper pairs equipped for each user as a group and propose an energy efficient transmission scheme based on grouped SM strategy for the upstream DSL systems, which is capable of reducing the power consumption of the upstream transmitters by activating a single copper line of each user. More especially, in order to compensate for the potential bit-rate reduction imposed by reducing the number of activated lines, the proposed scheme implicitly delivers "virtual bits" via activating/deactivating the lines in addition to the classic modulation scheme. This is particularly beneficial in the DSL context, because the cross-talk imposed by activating several lines may swamp the desired signal. Furthermore, a pair of near-optimal soft turbo detection schemes are proposed for exploiting the unique properties of the DSL channel in order to eliminate the error propagation problem of SM detection routinely encountered in wireless channels. Both the attainable energy-efficiency and the achievable Bit Error Ratio (BER) are investigated. Our simulation results demonstrate that the proposed group-based SM is capable of outperforming the vectoring scheme both in terms of its energy efficiency for all the examined loop lengths and transmit powers. Moreover, the proposed group-based SM is capable of outperforming the vectoring scheme both in terms of its BER performance in lower frequencies and longer serviced DSL loop lengths.
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FINAL_Article
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Accepted/In Press date: 27 June 2019
e-pub ahead of print date: 1 July 2019
Identifiers
Local EPrints ID: 432249
URI: http://eprints.soton.ac.uk/id/eprint/432249
ISSN: 2169-3536
PURE UUID: 3cc19f82-af69-4acd-84de-759fe9d40745
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Date deposited: 05 Jul 2019 16:30
Last modified: 16 Mar 2024 04:06
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Author:
Jiankang Zhang
Author:
Chao Xu
Author:
Tong Bai
Author:
Fasong Wang
Author:
Shida Zhong
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