Exploring Light Fidelity for Wireless Text and Audio Transmission
DOI:
https://doi.org/10.26438/ijcse/v6i3.246250Keywords:
Wireless Communication, Li-Fi (Light Fidelity), light emitting diode (LED), Wi-Fi, radio frequency (RF), visible light communication (VLC), line of sight (LOS)Abstract
Li-Fi (Light Fidelity) is a wireless technology introduced as 5G VLC, which uses LED or LASER at transmitter and photo detector, photodiode, LDR, solar panel at the receiver. This technology is found to have a compound annual growth rate of 82% from 2013 to 2018. Li-Fi has a large bandwidth as it uses visible region, thus it does not obstruct other communication. As it uses visible light it does not overrun through the walls, which comes up with new generation of wireless communication. This technology has hiked great popularity from last decade. Such technology has brought not only new but harmless and pocket friendly future of communication. As the present radio wave spectrum is suffering from efficiency and interferences issues since most wireless devices are electromagnetic. Thus in order to estimate issues of expandability, accessibility and security, the idea of wireless data transmission is recommended. The objective of this work is to explore possibility of using a light fidelity which uses light not only to illuminate the room but also for sending and receiving information. Therefore, with the help of this technology communication can take place at higher speed.
References
"Global Visible Light Communication (VLC)/Li-Fi Technology Market worth $6,138.02 Million by 2018". Markets and Markets. 10 January 2013. Archived from the original on 8 December 2015. Retrieved 29 November 2015.
Parth H. Pathak, Xiaotao Feng, Pengfei Hu, and Prasant Mohapatra, “Visible Light Communication, Networking, and Sensing: A Survey, Potential and Challenges” IEEE COMMUNICATIONS SURVEYS & TUTORIALS, VOL. 17, NO. 4, FOURTH QUARTER 2015
S. Rajagopal, R. Roberts, S.-K. Lim, "IEEE 802.15.7 visible light communication: Modulation schemes and dimming support", IEEE Communication Magazine, vol. 50, no. 3, pp. 72-82, Mar. 2012.
Latif Ullah Khan, “Visible light communication: applications, architecture, standardization and research challenges”,Digital Communication and Networks,3(2017)78-88.
Sowdhaya M P, Vikas Krishna, Drashan S, Nikhil A R, “Evolution of Gi-Fi and Li-Fi in wireless network” IJCSE vol.4, issue 3,pp.1-7,special issue 2016.
Kavyashree A, H.C. Srinivasaiah, “Data transmission and device control using Li-Fi”, International Journal of Industrial Electronics and Electrical Engineering ,ISSN:2347 -6982
Anurag Sarkar, Shalabh Agrawal, Asoke Nath, “Li-Fi technology : Data transmission through visible light”,IJARCSMS vol.3,issue 6,pp.1-12,2015.
Monica Leba, Simona Riurean, Andreea Ionica, University of Petrosani, “LiFi – the Path to a New Way of Communication”, ieeexplore.ieee.org/iel7/7966453/7975671/07975997.
Jay H. Bhut, Dharamrajsinh N. Parmar, Khushbu V. Mehata, “Li-Fi technology-A Visible light communication”, International Journal Of Eng neering Development And Research 2014 , ISSN: 2321-9939
Shivaji Kulkarni,Amogh Darekar, Pavan Joshi. ,“A Survey on Li-Fi Technology”, IEEE WiSPNET 2016 conference.
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