Ram Sharma; A. Charan Kumari

Performance Analysis of Rectangular and circular Shape Building Deployment for an Indoor Visible Light Communication System

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Author(s)

Ram Sharma ^1,* A. Charan Kumari ¹

1. School of Engineering, The NorthCap University, Gurgaon, India

* Corresponding author.

DOI: https://doi.org/10.5815/ijcnis.2017.07.02

Received: 1 Feb. 2017 / Revised: 10 Apr. 2017 / Accepted: 2 May 2017 / Published: 8 Jul. 2017

Index Terms

Average outage area ratio, hyper-heuristic evolutionary algorithm, indoor VLC system, root mean square delay, Signal to Noise Ratio

Abstract

The LED (Light emitting diode) based lighting systems are gaining popularity for its dual use i.e. for energy efficient lighting systems as well as for indoor optical wireless communication systems. Although, Visible light spectrum has the capability to provide very large system bandwidth (in THz), yet these systems have the limitation on account of limited modulation bandwidth. Besides, Visible light communication (VLC) systems also suffer due to multi-path propagation resulting in further depletion of system bandwidth due to pulse broadening. Therefore, one of the deployment objective of a visible light communication (VLC) system is to reduce the root mean square (RMS) delay parameter besides minimizing the number of LEDs. Hence, performance analysis of two geometrical shape structures mainly rectangular and circular models are explored for ubiquitous indoor coverage using hyper- heuristics evolutionary algorithm(HypEA) under spatial receiver mobility. Therefore, it is possible to achieve lower RMS delay spread and hence multi- fold increase in the overall system bandwidth without the use of complex system techniques like OFDM- MIMO etc.

Cite This Paper

Ram Sharma, A. Charan Kumari, "Performance Analysis of Rectangular and circular Shape Building Deployment for an Indoor Visible Light Communication System", International Journal of Computer Network and Information Security(IJCNIS), Vol.9, No.7, pp.11-19, 2017. DOI:10.5815/ijcnis.2017.07.02

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