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Research Article
Smart Home Automation System Based on Li-Fi Technology
Yohesh.M1
Andro Edwin.A2
Aswin Saravanan.R3
Kamalesh.S4
Dr.V.Parthasaradi5
1234 Department of Electronics and Communication Engineering, E.G.S. Pillay Engineering College, Nagapattinam, Tamilnadu, India. 5Associate Professor, Department of Electronics and Communication Engineering, E.G.S. Pillay Engineering College, Nagapattinam, Tamilnadu, India.
Published Online: May-June 2023
Pages: 342-345
Cite this article
↗ https://www.doi.org/10.59256/ijire.2023040397
References
1. Haas H, Yin L, Wang Y, and Chen C 2016 What is LiFi? J. Light. Technol. 34 pp 1533–44.
2. Ayyash M et al 2016 Coexistence of WiFi and LiFi toward 5G: Concepts, opportunities, and challenges IEEE Commun. Mag. 54(2)
pp 64– 71
3. pureLiFi 2017 Shedding Light on LiFi PureLiFi.
4. Singh P Y P and Bijnor U P 2013 A comparative and critical technical study of the Li-Fi (A Future Communication) V / S Wi-Fi 2(4)
pp 2011–3
5. Miteku N 2015 Li-Fi over Wi-Fi in internet data communication Ijireeice 3(12) pp 153–9.
6. Islim M S and Haas H 2016 Modulation techniques for Li⁃Fi Mohamed ZTE Commun. 14 pp 29– 40.
7. Revathi S and Aarthi G Performance analysis of WaveLength Division and Sub Carrier Multiplexing using different modulation
techniques Int. J. Eng. Res. Appl. 1(2) pp 317–20.
8. Ghassemlooy Z, Yuan Y, Tang X, and Luo P SVM Detection for Superposed Pulse Amplitude Modulation in Visible Light
Communications .
9. Afgani M, Haas H, Elgala H, and Knipp D 2006 Visible light communication using OFDM Proc. 2nd Int. Conf. Testbeds Res.
Infrastructures Dev. Networks Communities pp 129–34,.
10. Islim M S, Tsonev D, and Haas H A Generalised Solution to the Spectral Efficiency Loss in Unipolar Optical OFDM-based Systems.
24
11. Khan L U 2016 Visible light communication: Applications, architecture, standardisation and research challenges Digit.
Communication. Networks 3(2) pp 78–88
12. Kahn J M and Barry J R 1997 Wireless Infrared Communications 9219 no. 97.
13. Langer K, Hilt J, Schulz D, Hartlieb F, Kottke C, and Grobe L 2015 Rate-adaptive visible light communication at 500Mb / s arrives
at plug and play no. November 2013.
14. Vucic J et al 2010 803 Mbit/s Visible Light WDM Link based on DMT Modulation of a Single RGB LED Luminary Opt. Fiber
Commun. (OFC), collocated Natl. Fibre Opt. Eng. Conf. 2010 Conf. no. April pp 7–9.
15. Cossu G, Khalid A M, Choudhury P, Corsini R, and Ciaramella E 2012 2.1 Gbit/s Visible Optical Wireless Transmission European
Conf. and Exhibition on Optical Communication p. P4.16.
16. Cossu G, Khalid A M, Choudhury P, Corsini R, and Ciaramella E 2012 34 Gbit/s visible optical wireless transmission based on RGB
LED Opt. Express 20(26) p B501.
17. Li J F, Huang Z T, Zhang R Q, Zeng F X, Jiang M, and Ji Y F 2013 Superposed pulse amplitude modulation for visible light
communication Opt Express 21(25) p. 31006–11
2. Ayyash M et al 2016 Coexistence of WiFi and LiFi toward 5G: Concepts, opportunities, and challenges IEEE Commun. Mag. 54(2)
pp 64– 71
3. pureLiFi 2017 Shedding Light on LiFi PureLiFi.
4. Singh P Y P and Bijnor U P 2013 A comparative and critical technical study of the Li-Fi (A Future Communication) V / S Wi-Fi 2(4)
pp 2011–3
5. Miteku N 2015 Li-Fi over Wi-Fi in internet data communication Ijireeice 3(12) pp 153–9.
6. Islim M S and Haas H 2016 Modulation techniques for Li⁃Fi Mohamed ZTE Commun. 14 pp 29– 40.
7. Revathi S and Aarthi G Performance analysis of WaveLength Division and Sub Carrier Multiplexing using different modulation
techniques Int. J. Eng. Res. Appl. 1(2) pp 317–20.
8. Ghassemlooy Z, Yuan Y, Tang X, and Luo P SVM Detection for Superposed Pulse Amplitude Modulation in Visible Light
Communications .
9. Afgani M, Haas H, Elgala H, and Knipp D 2006 Visible light communication using OFDM Proc. 2nd Int. Conf. Testbeds Res.
Infrastructures Dev. Networks Communities pp 129–34,.
10. Islim M S, Tsonev D, and Haas H A Generalised Solution to the Spectral Efficiency Loss in Unipolar Optical OFDM-based Systems.
24
11. Khan L U 2016 Visible light communication: Applications, architecture, standardisation and research challenges Digit.
Communication. Networks 3(2) pp 78–88
12. Kahn J M and Barry J R 1997 Wireless Infrared Communications 9219 no. 97.
13. Langer K, Hilt J, Schulz D, Hartlieb F, Kottke C, and Grobe L 2015 Rate-adaptive visible light communication at 500Mb / s arrives
at plug and play no. November 2013.
14. Vucic J et al 2010 803 Mbit/s Visible Light WDM Link based on DMT Modulation of a Single RGB LED Luminary Opt. Fiber
Commun. (OFC), collocated Natl. Fibre Opt. Eng. Conf. 2010 Conf. no. April pp 7–9.
15. Cossu G, Khalid A M, Choudhury P, Corsini R, and Ciaramella E 2012 2.1 Gbit/s Visible Optical Wireless Transmission European
Conf. and Exhibition on Optical Communication p. P4.16.
16. Cossu G, Khalid A M, Choudhury P, Corsini R, and Ciaramella E 2012 34 Gbit/s visible optical wireless transmission based on RGB
LED Opt. Express 20(26) p B501.
17. Li J F, Huang Z T, Zhang R Q, Zeng F X, Jiang M, and Ji Y F 2013 Superposed pulse amplitude modulation for visible light
communication Opt Express 21(25) p. 31006–11
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