A comparative study of optical concentrators for visible light communications

Rahmat Mulyawan; Ariel Gomez; Hyunchae Chun; Sujan Rajbhandari; Pavlos P. Manousiadis; Dimali A. Vithanage; G. E. Faulkner; Graham A. Turnbull; Ifor D.W. Samuel; Stephen Collins; Dominic O'Brien

doi:10.1117/12.2252355

A comparative study of optical concentrators for visible light communications

Rahmat Mulyawan, Ariel Gomez, Hyunchae Chun, Sujan Rajbhandari, Pavlos P. Manousiadis, Dimali A. Vithanage, G. E. Faulkner, Graham A. Turnbull, Ifor D.W. Samuel, Stephen Collins, Dominic O'Brien

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Given the imminent radio frequency spectrum crunch, Visible Light Communication (VLC) is being proposed as an alternative wireless technology allowing for scalable connectivity to potentially millions of mobile and Internet-of- Things (IoT) devices. A VLC system uses a photo-detector (PD) receiver that converts the optically modulated light from a light source into a modulated electrical signal. The corresponding receiver electrical bandwidth is typically inversely proportional to the PD active area. Consequently, to construct a high-speed VLC link, the PD active area is often substantially reduced and an optical concentrator is used to enhance the receiver collection area. However, to achieve high concentrating factor, the link field-of-view (FOV) needs to be narrow due to the étendue conservation in linear passive optical systems. This paper studies a Fluorescent Concentrator (FC) that breaks this étendue conservation. The FC is not only based on reflective and refractive principles but also makes use of fluorescence process. A comparison between the FC and conventional optical concentrators, namely Compound Parabolic Concentrator (CPC) is also investigated. The trade-off between received signal strength and incoming link angle is demonstrated over 60° coverage. Experimental results show that performance degradation as the link angle increases using FC-based receivers is significantly lower than for conventional CPC.

Original language	English
Title of host publication	Broadband Access Communication Technologies XI
Editors	Spiros Mikroulis, Benjamin B. Dingel, Katsutoshi Tsukamoto
Publisher	SPIE
ISBN (Electronic)	9781510606975
DOIs	https://doi.org/10.1117/12.2252355
Publication status	Published - 2017
Event	Photonics West OPTO 2017 Conference on Broadband Access Communication Technologies XI - San Francisco, United States Duration: 31 Jan 2017 → 1 Feb 2017

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	10128
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Photonics West OPTO 2017 Conference on Broadband Access Communication Technologies XI
Country/Territory	United States
City	San Francisco
Period	31/01/17 → 1/02/17

Keywords

Field-of-view
Optical concentrator
Visible light communication
Étendue

Access to Document

10.1117/12.2252355

Cite this

Mulyawan, R., Gomez, A., Chun, H., Rajbhandari, S., Manousiadis, P. P., Vithanage, D. A., Faulkner, G. E., Turnbull, G. A., Samuel, I. D. W., Collins, S., & O'Brien, D. (2017). A comparative study of optical concentrators for visible light communications. In S. Mikroulis, B. B. Dingel, & K. Tsukamoto (Eds.), Broadband Access Communication Technologies XI Article 101280L (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10128). SPIE. https://doi.org/10.1117/12.2252355

@inproceedings{8974ea92c7574db5ab22e095a840eec2,

title = "A comparative study of optical concentrators for visible light communications",

abstract = "Given the imminent radio frequency spectrum crunch, Visible Light Communication (VLC) is being proposed as an alternative wireless technology allowing for scalable connectivity to potentially millions of mobile and Internet-of- Things (IoT) devices. A VLC system uses a photo-detector (PD) receiver that converts the optically modulated light from a light source into a modulated electrical signal. The corresponding receiver electrical bandwidth is typically inversely proportional to the PD active area. Consequently, to construct a high-speed VLC link, the PD active area is often substantially reduced and an optical concentrator is used to enhance the receiver collection area. However, to achieve high concentrating factor, the link field-of-view (FOV) needs to be narrow due to the {\'e}tendue conservation in linear passive optical systems. This paper studies a Fluorescent Concentrator (FC) that breaks this {\'e}tendue conservation. The FC is not only based on reflective and refractive principles but also makes use of fluorescence process. A comparison between the FC and conventional optical concentrators, namely Compound Parabolic Concentrator (CPC) is also investigated. The trade-off between received signal strength and incoming link angle is demonstrated over 60° coverage. Experimental results show that performance degradation as the link angle increases using FC-based receivers is significantly lower than for conventional CPC.",

keywords = "Field-of-view, Optical concentrator, Visible light communication, {\'E}tendue",

author = "Rahmat Mulyawan and Ariel Gomez and Hyunchae Chun and Sujan Rajbhandari and Manousiadis, {Pavlos P.} and Vithanage, {Dimali A.} and Faulkner, {G. E.} and Turnbull, {Graham A.} and Samuel, {Ifor D.W.} and Stephen Collins and Dominic O'Brien",

note = "Publisher Copyright: {\textcopyright} 2017 COPYRIGHT SPIE.; Photonics West OPTO 2017 Conference on Broadband Access Communication Technologies XI ; Conference date: 31-01-2017 Through 01-02-2017",

year = "2017",

doi = "10.1117/12.2252355",

language = "English",

series = "Proceedings of SPIE - The International Society for Optical Engineering",

publisher = "SPIE",

editor = "Spiros Mikroulis and Dingel, {Benjamin B.} and Katsutoshi Tsukamoto",

booktitle = "Broadband Access Communication Technologies XI",

address = "United States",

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Mulyawan, R, Gomez, A, Chun, H, Rajbhandari, S, Manousiadis, PP, Vithanage, DA, Faulkner, GE, Turnbull, GA , Samuel, IDW, Collins, S & O'Brien, D 2017, A comparative study of optical concentrators for visible light communications. in S Mikroulis, BB Dingel & K Tsukamoto (eds), Broadband Access Communication Technologies XI., 101280L, Proceedings of SPIE - The International Society for Optical Engineering, vol. 10128, SPIE, Photonics West OPTO 2017 Conference on Broadband Access Communication Technologies XI, San Francisco, United States, 31/01/17. https://doi.org/10.1117/12.2252355

A comparative study of optical concentrators for visible light communications. / Mulyawan, Rahmat; Gomez, Ariel; Chun, Hyunchae et al.
Broadband Access Communication Technologies XI. ed. / Spiros Mikroulis; Benjamin B. Dingel; Katsutoshi Tsukamoto. SPIE, 2017. 101280L (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 10128).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

TY - GEN

T1 - A comparative study of optical concentrators for visible light communications

AU - Mulyawan, Rahmat

AU - Gomez, Ariel

AU - Chun, Hyunchae

AU - Rajbhandari, Sujan

AU - Manousiadis, Pavlos P.

AU - Vithanage, Dimali A.

AU - Faulkner, G. E.

AU - Turnbull, Graham A.

AU - Samuel, Ifor D.W.

AU - Collins, Stephen

AU - O'Brien, Dominic

PY - 2017

Y1 - 2017

N2 - Given the imminent radio frequency spectrum crunch, Visible Light Communication (VLC) is being proposed as an alternative wireless technology allowing for scalable connectivity to potentially millions of mobile and Internet-of- Things (IoT) devices. A VLC system uses a photo-detector (PD) receiver that converts the optically modulated light from a light source into a modulated electrical signal. The corresponding receiver electrical bandwidth is typically inversely proportional to the PD active area. Consequently, to construct a high-speed VLC link, the PD active area is often substantially reduced and an optical concentrator is used to enhance the receiver collection area. However, to achieve high concentrating factor, the link field-of-view (FOV) needs to be narrow due to the étendue conservation in linear passive optical systems. This paper studies a Fluorescent Concentrator (FC) that breaks this étendue conservation. The FC is not only based on reflective and refractive principles but also makes use of fluorescence process. A comparison between the FC and conventional optical concentrators, namely Compound Parabolic Concentrator (CPC) is also investigated. The trade-off between received signal strength and incoming link angle is demonstrated over 60° coverage. Experimental results show that performance degradation as the link angle increases using FC-based receivers is significantly lower than for conventional CPC.

AB - Given the imminent radio frequency spectrum crunch, Visible Light Communication (VLC) is being proposed as an alternative wireless technology allowing for scalable connectivity to potentially millions of mobile and Internet-of- Things (IoT) devices. A VLC system uses a photo-detector (PD) receiver that converts the optically modulated light from a light source into a modulated electrical signal. The corresponding receiver electrical bandwidth is typically inversely proportional to the PD active area. Consequently, to construct a high-speed VLC link, the PD active area is often substantially reduced and an optical concentrator is used to enhance the receiver collection area. However, to achieve high concentrating factor, the link field-of-view (FOV) needs to be narrow due to the étendue conservation in linear passive optical systems. This paper studies a Fluorescent Concentrator (FC) that breaks this étendue conservation. The FC is not only based on reflective and refractive principles but also makes use of fluorescence process. A comparison between the FC and conventional optical concentrators, namely Compound Parabolic Concentrator (CPC) is also investigated. The trade-off between received signal strength and incoming link angle is demonstrated over 60° coverage. Experimental results show that performance degradation as the link angle increases using FC-based receivers is significantly lower than for conventional CPC.

KW - Field-of-view

KW - Optical concentrator

KW - Visible light communication

KW - Étendue

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Mulyawan R, Gomez A, Chun H, Rajbhandari S, Manousiadis PP, Vithanage DA et al. A comparative study of optical concentrators for visible light communications. In Mikroulis S, Dingel BB, Tsukamoto K, editors, Broadband Access Communication Technologies XI. SPIE. 2017. 101280L. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.2252355

A comparative study of optical concentrators for visible light communications

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Keywords

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