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Visible Light Communications: Theory and Applications: Modulation Schemes

Research output: Chapter in Book/Report/Conference proceedingChapter

Standard Standard

Visible Light Communications: Theory and Applications: Modulation Schemes. / Cseh, Tamás; Rajbhandari, Sujan; Fekete, Gábor et al.
Visible Light Communications: Theory and Applications. United Kingdom: Taylor and Francis, 2017. p. 97-144.

Research output: Chapter in Book/Report/Conference proceedingChapter

HarvardHarvard

Cseh, T, Rajbhandari, S, Fekete, G & Udvary, E 2017, Visible Light Communications: Theory and Applications: Modulation Schemes. in Visible Light Communications: Theory and Applications. Taylor and Francis, United Kingdom, pp. 97-144.

APA

Cseh, T., Rajbhandari, S., Fekete, G., & Udvary, E. (2017). Visible Light Communications: Theory and Applications: Modulation Schemes. In Visible Light Communications: Theory and Applications (pp. 97-144). Taylor and Francis.

CBE

Cseh T, Rajbhandari S, Fekete G, Udvary E. 2017. Visible Light Communications: Theory and Applications: Modulation Schemes. In Visible Light Communications: Theory and Applications. United Kingdom: Taylor and Francis. pp. 97-144.

MLA

Cseh, Tamás et al. "Visible Light Communications: Theory and Applications: Modulation Schemes". Visible Light Communications: Theory and Applications. United Kingdom: Taylor and Francis. 2017, 97-144.

VancouverVancouver

Cseh T, Rajbhandari S, Fekete G, Udvary E. Visible Light Communications: Theory and Applications: Modulation Schemes. In Visible Light Communications: Theory and Applications. United Kingdom: Taylor and Francis. 2017. p. 97-144

Author

Cseh, Tamás ; Rajbhandari, Sujan ; Fekete, Gábor et al. / Visible Light Communications: Theory and Applications: Modulation Schemes. Visible Light Communications: Theory and Applications. United Kingdom : Taylor and Francis, 2017. pp. 97-144

RIS

TY - CHAP

T1 - Visible Light Communications: Theory and Applications: Modulation Schemes

AU - Cseh, Tamás

AU - Rajbhandari, Sujan

AU - Fekete, Gábor

AU - Udvary, Eszter

PY - 2017/6/26

Y1 - 2017/6/26

N2 - Modern street lighting represents the pervasive utilization of light-emitting diode (LED) lamps to illuminate urban and rural areas. In addition, LED-based lighting sources can also be utilized for outdoor data communications and localization. The replacement of traditional street incandescent and fluorescent-based lights by highly efficient LED lights is taking place on a global level. This chapter highlights the main features of LED public lighting systems that could be used for visible light communications (VLC). First, a description of state-of-the-art street lighting, including its main functions, control systems, and typical parameters, is provided. Then, the main aspects associated with lighting performance and aging are outlined. The remainder of the chapter is devoted to recent studies on public lighting for VLC purposes, focusing on ray tracing simulations, noise parameters, and delay profiles among other topics.

AB - Modern street lighting represents the pervasive utilization of light-emitting diode (LED) lamps to illuminate urban and rural areas. In addition, LED-based lighting sources can also be utilized for outdoor data communications and localization. The replacement of traditional street incandescent and fluorescent-based lights by highly efficient LED lights is taking place on a global level. This chapter highlights the main features of LED public lighting systems that could be used for visible light communications (VLC). First, a description of state-of-the-art street lighting, including its main functions, control systems, and typical parameters, is provided. Then, the main aspects associated with lighting performance and aging are outlined. The remainder of the chapter is devoted to recent studies on public lighting for VLC purposes, focusing on ray tracing simulations, noise parameters, and delay profiles among other topics.

M3 - Chapter

SN - 9781498767538

SP - 97

EP - 144

BT - Visible Light Communications: Theory and Applications

PB - Taylor and Francis

CY - United Kingdom

ER -