Wireless Engineering and Technology

Volume 8, Issue 4 (October 2017)

ISSN Print: 2152-2294   ISSN Online: 2152-2308

Google-based Impact Factor: 2.09  Citations  

Design of a Li-Fi Transceiver

HTML  XML Download Download as PDF (Size: 3763KB)  PP. 71-86  
DOI: 10.4236/wet.2017.84006    20,459 Downloads   41,315 Views  Citations

ABSTRACT

The latest uproar in this era is about a technology termed as Light Fidelity or more commonly known as Li-Fi. There are currently two trends being seen: First, the extension or enrichment of wireless services and other being increased in user demand for these services, but the available RF spectrum for usage is very limited. So the new technology of Li-Fi came into picture, which uses visible light as a source of communication. Li-Fi is the most recent development which is resourceful. In this technology, LEDs are used to transmit data in the visible light spectrum. This technology can be compared with that of Wi-Fi and offers advantages like increased accessible spectrum, efficiency, security, low latency and much higher speed. This research paper aims at designing a Li-Fi transceiver using Arduino that is able to transmit digital data. The hardware has been designed using Eagle CAD (version 7.1.0) tool and Proteus design tool (version 8). The software coding is done by using Java (version 8). Successful transmission and reception of text, image and video signals is carried out on the transceiver. Hence this research work gives an innovative way of designing a transceiver which works by using off the shelf low cost components and using visible light spectrum.

Share and Cite:

Goswami, P. and Shukla, M. (2017) Design of a Li-Fi Transceiver. Wireless Engineering and Technology, 8, 71-86. doi: 10.4236/wet.2017.84006.

Cited by

[1] A Review on 5G Technology in IoT-Application Based on Light Fidelity (Li-Fi) Indoor Communication
Nahari - Advances on Intelligent Informatics …, 2022
[2] Bidirectional data transfer via LiFi technology
AIP Conference Proceedings, 2022
[3] Implementation and evaluation of a comprehensive Li-Fi system using Matlab/Simulink
… Advanced Researches and …, 2022
[4] Secure of Transmission Systems in the Visible Range of Light with the Power Line Communication Interface
Janabi, H Al-Janabi, BQ Elias - INTERNATIONAL ARAB JOURNAL OF …, 2022
[5] High Speed Transmission of Data or Video Over Visible Light Using Li-Fi
2022 International …, 2022
[6] Architecture design supporting Li-Fi technology
2022
[7] Conception d'une architecture supportant la technologie Li-Fi
2022
[8] Impact de DC bias sur les performances du system VLC-OFDM
2022
[9] Li-Fi: A Novel Stand-In for Connectivity and Data Transmission in Toll System
… Communication Technologies and …, 2022
[10] Data Transfer Using Lifi
… & ESSENTIAL OILS …, 2021
[11] RANCANG BANGUN DAN ANALISIS KINERJA PERANGKAT TRANSCEIVER SISTEM VISIBLE LIGHT COMMUNICATION
2021
[12] Light Fidelity (Li‐Fi) Technology: The Future Man–Machine–Machine Interaction Medium
… Technology: Internet of …, 2021
[13] Optimum DC bias for DC biased optical OFDM based optical wireless communication using machine learning
2021
[14] Arduino Based Visible Light Communications Between Two Devices Using Li-Fi Technology
… on Advancements in …, 2021
[15] Wi-Vi and Li-Fi based framework for Human Identification and Vital Signs Detection through Walls
International Conference on Smart …, 2021
[16] Light Fidelity (Li-Fi) Technology: Will It Be An Eco-Friendly For Monitoring The Covid-19 Patients In Hospital
2021
[17] Visible light communication
2020
[18] Realization of Microprocessor Based Visible Light Communication
Scientific Journal of Mehmet Akif Ersoy University, 2020
[19] An Introduction to LiFi and Review of Prototypes Designed on FPGA and Other Hardware
2020
[20] Futuristic Short Range Optical Communication: A Survey
2020
[21] Analog/Digital Data Transmission using Li-Fi
2020
[22] Design of a Low-Cost Li-Fi System Using Table Lamp
2020
[23] Contribuições ao Estudo da Camada Física de Sistemas Light-Fidelity, Li-Fi
2020
[24] Estudio de las vulnerabilidades en las redes de tecnología LI-FI
2020
[25] Underwater Communication using Li-FiTechnologyusing Video ProcessingTechnique
International Journal of Scientific Research and Review, 2019
[26] Novel Design for Li-Fi Healthcare Monitoring System
2019
[27] An Encoding Scheme Considering Diffused Lights In a Visual Light Communication System
2019
[28] Comparison Study of Prototypes based on LiFi Technology
2019
[29] 가시광통신체계에서 난반사 조명을 고려한 인코딩 스킴
2019
[30] Security Aspects of LiFi Technology
2019
[31] Comparative Analysis of Prototypes Based on Li-Fi Technology
2019
[32] Desarrollo de una herramienta software para el diseño de una red de comunicaciones e iluminación en interiores basada en tecnología VLC.
2019
[33] Diseño y pruebas de un AFE para comunicaciones VLC
2019
[34] POINT-TO-POINT DIGITAL COMMUNICATION using VLC (Visible Light Communication) and LIFI technology
2019
[35] An application of Li-Fi based Wireless Communication System using Visible Light Communication
2019
[36] An Overview of LiFi: a 5G candidateTechnology
2018
[37] Image Transmission Using Li-Fi
2018
[38] Wireless Technologies of Information Transmission Based on the Using of Modulated Optical Radiation (Li-Fi Communication System): State and Prospects
2018
[39] Internet Access over Visible Light
2018
[40] ТЕХНОЛОГИИ БЕСПРОВОДНОЙ ПЕРЕДАЧИ ИНФОРМАЦИИ С ПОМОЩЬЮ МОДУЛИРОВАННОГО ОПТИЧЕСКОГО ИЗЛУЧЕНИЯ (LI-FI СВЯЗЬ): СОСТОЯНИЕ …
2018
[41] Efficient Magnetic Resonance Wireless Power Transfer Systems
2018
[42] ESTUDIO DE LAS VULNERABILIDADES EN LAS REDES DE TECNOLOGIA LI-FI
SCH JARAMILLO

Journals Menu
Follow SCIRP
Contact us
+1 323-425-8868
customer@scirp.org
WhatsApp +86 18163351462(WhatsApp)
Click here to send a message to me 1655362766
Paper Publishing WeChat

Copyright © 2024 by authors and Scientific Research Publishing Inc.

Creative Commons License

This work and the related PDF file are licensed under a Creative Commons Attribution 4.0 International License.