Enabling real-life deployment of piggyback-VLC via light emission composition
Whereas the increasing popularity of both commercial light-emitting diode (LED) lighting and mobile devices certainly creates opportunity for real-life deployment of visible light communication (VLC) systems, reaching the high throughput promised by lab experiments still faces major obstacles. In pa...
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sg-ntu-dr.10356-1618392022-09-21T05:40:53Z Enabling real-life deployment of piggyback-VLC via light emission composition Yang, Yanbing Luo, Jun Chen, Chen Chen, Liangyin School of Computer Science and Engineering Engineering::Computer science and engineering Light Emitting Diodes Visible Light Communication Whereas the increasing popularity of both commercial light-emitting diode (LED) lighting and mobile devices certainly creates opportunity for real-life deployment of visible light communication (VLC) systems, reaching the high throughput promised by lab experiments still faces major obstacles. In particular, lacking the sophisticated hardware and software support under experimental conditions, real-life systems are challenged in many aspects, especially low signal-to-noise ratio, low operation frequency, uncontrollable LED nonlinearity, and illumination requirements. Nonetheless, deployments tapping commercial infrastructure are critical to gain market penetration for VLC-enabled wireless applications, so boosting the performance of these real-life systems becomes imperative. In this article, we consider the multiple LED chips and/or light sources nature of indoor commercial lighting infrastructure, and propose a spatial modulation that composes the cooperative light emissions (transmissions) from multiple LEDs. In addition to gaining a higher spectral efficiency, this scheme utilizes the multiple-LED nature of commercial lighting to overcome LED nonlinearity with a novel yet simplified hardware construction. We present two typical designs adopting this special modulation under different infrastructural constraints, and provide an introduction on its potential contribution to the standardization of VLC. Finally, we discuss potential extensions to further improve performance. Ministry of Education (MOE) This work was supported in part by National Natural Science Foundation of China under Grant 61902267 and Grant 61901065, in part by the Fundamental Research Funds for the Central Universities under Grant YJ201868, in part by the Sichuan Science and Technology Program under Grant 19ZDYF0045 and Grant 19CXTD0005, in part by the the AcRF Tier 2 Grant MOE2016-T2-2- 022, and in part by the DSAIR Center at NTU. 2022-09-21T05:40:53Z 2022-09-21T05:40:53Z 2020 Journal Article Yang, Y., Luo, J., Chen, C. & Chen, L. (2020). Enabling real-life deployment of piggyback-VLC via light emission composition. IEEE Internet Computing, 24(1), 59-65. https://dx.doi.org/10.1109/MIC.2020.2973062 1089-7801 https://hdl.handle.net/10356/161839 10.1109/MIC.2020.2973062 2-s2.0-85083916142 1 24 59 65 en MOE2016-T2-2- 022 IEEE Internet Computing © 2020 IEEE. All rights reserved. |
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Engineering::Computer science and engineering Light Emitting Diodes Visible Light Communication |
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Engineering::Computer science and engineering Light Emitting Diodes Visible Light Communication Yang, Yanbing Luo, Jun Chen, Chen Chen, Liangyin Enabling real-life deployment of piggyback-VLC via light emission composition |
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Whereas the increasing popularity of both commercial light-emitting diode (LED) lighting and mobile devices certainly creates opportunity for real-life deployment of visible light communication (VLC) systems, reaching the high throughput promised by lab experiments still faces major obstacles. In particular, lacking the sophisticated hardware and software support under experimental conditions, real-life systems are challenged in many aspects, especially low signal-to-noise ratio, low operation frequency, uncontrollable LED nonlinearity, and illumination requirements. Nonetheless, deployments tapping commercial infrastructure are critical to gain market penetration for VLC-enabled wireless applications, so boosting the performance of these real-life systems becomes imperative. In this article, we consider the multiple LED chips and/or light sources nature of indoor commercial lighting infrastructure, and propose a spatial modulation that composes the cooperative light emissions (transmissions) from multiple LEDs. In addition to gaining a higher spectral efficiency, this scheme utilizes the multiple-LED nature of commercial lighting to overcome LED nonlinearity with a novel yet simplified hardware construction. We present two typical designs adopting this special modulation under different infrastructural constraints, and provide an introduction on its potential contribution to the standardization of VLC. Finally, we discuss potential extensions to further improve performance. |
| author2 |
School of Computer Science and Engineering |
| author_facet |
School of Computer Science and Engineering Yang, Yanbing Luo, Jun Chen, Chen Chen, Liangyin |
| format |
Article |
| author |
Yang, Yanbing Luo, Jun Chen, Chen Chen, Liangyin |
| author_sort |
Yang, Yanbing |
| title |
Enabling real-life deployment of piggyback-VLC via light emission composition |
| title_short |
Enabling real-life deployment of piggyback-VLC via light emission composition |
| title_full |
Enabling real-life deployment of piggyback-VLC via light emission composition |
| title_fullStr |
Enabling real-life deployment of piggyback-VLC via light emission composition |
| title_full_unstemmed |
Enabling real-life deployment of piggyback-VLC via light emission composition |
| title_sort |
enabling real-life deployment of piggyback-vlc via light emission composition |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161839 |
| _version_ |
1745574651143127040 |