Design and Implementation of MPVLC Li-Fi Model for End-To-End Wireless Data Transmission
A. Gayathri1, S. Mohanapriya2
1A. Gayathri*, Department of Computer Science, Vivekanandha College of Arts and Sciences for Women, Tamil Nadu, India.
2Dr. S. Mohanapriya, Department of computer science, K.S.R College of Arts and Science for Women, Tiruchengode, Tamil Nadu, India.

Manuscript received on January 09, 2020. | Revised Manuscript received on January 22, 2020. | Manuscript published on January 30, 2020. | PP: 2834-2837 | Volume-8 Issue-5, January 2020. | Retrieval Number: D9241118419/2020©BEIESP | DOI: 10.35940/ijrte.D9241.018520

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Abstract: Li-Fi system is a recent and brilliant technology which is utilized visible light as a medium for multimedia data transmission. In Li-Fi communication system, transfers data in the form of light signals as an alternative of Wi-Fi. The Li-Fi technology supports transmission of multimedia data in the way of light particles by sending the multimedia data via LED bulbs that make changes in faster transmission. The Li-Fi with hardware and software model creation with many parameters that must be considered while implementing a Li-Fi based transmission system prototype which is high data rate, distance and the LOS. These parameters are taken for major component when modelling a Light Fidelity system. The main problems in the implementation of an improved data rate at low network coverage and powerless location multi point VLC system and solar component are the range and cost effective model. The VLC source component and destination component must be compatible for high data rate. The conventional lighting technique in communication feels from intrusion and maximum delay possibilities. Solution for the above light based transmission problems in implementation; VLC is a preferred communication model because of its maximum throughput and secure transmission from light particles. The proposed Multi Point Visible Light Communication Li-Fi model provides high-speed communication to achieve better capacity, efficiency, and availability at low network coverage than existing lighting technology.
Keywords: Li-Fi, LED, Solar Panel, Wireless, Multimedia Data, PC, Mobile.
Scope of the Article: Wireless Multimedia Systems.