Dataset for Hierarchical Colour-Shift-Keying Aided Layered Video Streaming for the Visible Light Downlink
Dataset for Hierarchical Colour-Shift-Keying Aided Layered Video Streaming for the Visible Light Downlink
Dataset supports:
Zhu, C. at al (2016). Hierarchical colour-shift-keying aided layered video streaming for the visible light downlink. IEEE Access, 4, 3127-3152
Colour-shift keying (CSK) constitutes an important modulation scheme conceived for the visible light communications (VLC). The signal constellation of CSK relies on three different-colour light-sources invoked for information transmission. The CSK constellation has been optimized for minimizing the bit error rate, but no effort has been invested in investigating the feasibility of CSK aided unequal error protection (UEP) schemes conceived for video sources. Hence in this treatise, we conceive a hierarchical CSK (HCSK) modulation scheme based on the traditional CSK, which is capable of generating interdependent layers of signals having different error probability, which can be readily reconfigured by changing its parameters. Furthermore, we conceived a HCSK design example for transmitting scalable video sources with the aid of a recursive systematic convolutional (RSC) code. An optimisation method is conceived for enhancing the UEP and for improving the quality of the received video. Our simulation results show that the proposed optimized-UEP 16-HCSK-RSC system outperforms the traditional EEP scheme by about 1.7 dB of optical SNR at a peak signal-to-noise ratio (PSNR) of 37 dB, whilst optical SNR savings of up to 6.5 dB are attained at a lower PSNR of 36 dB.
unequal error protection, SVC, visible light communications, colour-shift keying
University of Southampton
Zhu, Chuan
68faec7d-dfe8-42a6-ab1d-4ea51ce050b4
HUO, YONGKAI
12ef7050-42c0-4660-9776-66ce675fb1ab
Jiang, Junyi
0a4e01a5-c9d1-4031-8a31-5d6d8e63fa06
Sun, Hua
2e2bad09-8ba9-4d9b-afa8-2a6a290eeaa2
DONG, CHEN
48a604f3-76a4-4ba6-a660-fe311adcafe9
Zhang, Rong
3be8f78f-f079-4a3f-a151-76ecd5f378f4
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Zhu, Chuan
68faec7d-dfe8-42a6-ab1d-4ea51ce050b4
HUO, YONGKAI
12ef7050-42c0-4660-9776-66ce675fb1ab
Jiang, Junyi
0a4e01a5-c9d1-4031-8a31-5d6d8e63fa06
Sun, Hua
2e2bad09-8ba9-4d9b-afa8-2a6a290eeaa2
DONG, CHEN
48a604f3-76a4-4ba6-a660-fe311adcafe9
Zhang, Rong
3be8f78f-f079-4a3f-a151-76ecd5f378f4
Hanzo, Lajos
66e7266f-3066-4fc0-8391-e000acce71a1
Zhu, Chuan, HUO, YONGKAI, Jiang, Junyi, Sun, Hua, DONG, CHEN, Zhang, Rong and Hanzo, Lajos
(2016)
Dataset for Hierarchical Colour-Shift-Keying Aided Layered Video Streaming for the Visible Light Downlink.
University of Southampton
doi:10.5258/SOTON/396119
[Dataset]
Abstract
Dataset supports:
Zhu, C. at al (2016). Hierarchical colour-shift-keying aided layered video streaming for the visible light downlink. IEEE Access, 4, 3127-3152
Colour-shift keying (CSK) constitutes an important modulation scheme conceived for the visible light communications (VLC). The signal constellation of CSK relies on three different-colour light-sources invoked for information transmission. The CSK constellation has been optimized for minimizing the bit error rate, but no effort has been invested in investigating the feasibility of CSK aided unequal error protection (UEP) schemes conceived for video sources. Hence in this treatise, we conceive a hierarchical CSK (HCSK) modulation scheme based on the traditional CSK, which is capable of generating interdependent layers of signals having different error probability, which can be readily reconfigured by changing its parameters. Furthermore, we conceived a HCSK design example for transmitting scalable video sources with the aid of a recursive systematic convolutional (RSC) code. An optimisation method is conceived for enhancing the UEP and for improving the quality of the received video. Our simulation results show that the proposed optimized-UEP 16-HCSK-RSC system outperforms the traditional EEP scheme by about 1.7 dB of optical SNR at a peak signal-to-noise ratio (PSNR) of 37 dB, whilst optical SNR savings of up to 6.5 dB are attained at a lower PSNR of 36 dB.
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item.xlsx
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reference.bib
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More information
Published date: 2016
Keywords:
unequal error protection, SVC, visible light communications, colour-shift keying
Organisations:
Electronics & Computer Science, Southampton Wireless Group, Electronics & Computer Science
Identifiers
Local EPrints ID: 421390
URI: http://eprints.soton.ac.uk/id/eprint/421390
PURE UUID: 6c39e4ce-a6ad-4cf7-b456-0fcb76c409d1
Catalogue record
Date deposited: 07 Jun 2018 16:30
Last modified: 05 Nov 2023 02:32
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Contributors
Creator:
Chuan Zhu
Creator:
YONGKAI HUO
Creator:
Junyi Jiang
Creator:
Hua Sun
Creator:
CHEN DONG
Creator:
Rong Zhang
Creator:
Lajos Hanzo
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