An Analysis of Distance Extension Method in Visible Light Communication (VLC) Performance

LISA KRISTIANA, ARSYAD RAMADHAN DARLIS, IRMA AMELIA DEWI, LITA LIDYAWATI, HEGAR REFALDY ARCHANDHIKA

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ABSTRAK

A Visible Light Communication (VLC) adalah teknologi yang menawarkan konsep inovatif karena VLC menerapkan cahaya tampak untuk mentransmisikan informasi dari satu titik ke titik lain. Tantangan utama dalam penerapan VLC adalah pelemahan sinyal cahaya tampak karena faktor jarak dari titik sumber ke titik tujuan. Penelitian ini berfokus pada metode untuk merancang dan menerapkan pemancar dan penerima VLC pada media udara. Dengan membandingkan berbagai macam tipe LED, pengukuran yang didapatkan menunjukkan bahwa pemancar dan penerima VLC dapat ditingkatkan kemampuannya sehingga mencapat jarak maksimum 8.5 meter dengan menggunakan LED HPL.

Kata kunci: Visible Light Communication, VLC Transceiver, Distance Extension Method, Light Emitting Diodes (LEDs).

 

ABSTRACT

A Visible Light Communication (VLC) offers the innovative concept in telecommunication since it implements visible lights to transmit information from one point to other points. The main challenge in VLC is the attenuation due to the distance from source to destination. This research focuses on extension method to design and implement the VLC transceiver in an air medium. By comparing the real measurement of several types of LEDs, the distance of VLC transceiver can be extended up to 8.5 meters by applying HPL LED.

Keywords: Visible Light Communication, VLC Transceiver, Distance Extension Method, Light Emitting Diodes (LEDs).


Kata Kunci


Visible Light Communication; VLC Transceiver; Distance Extension Method; Light Emitting Diodes (LEDs).

Teks Lengkap:

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Referensi


A.R., Darlis, W.A., Cahyadi, Y.H., Chung. (2018). Shore-to-Undersea Visible Light Communication. Wireless Personal Communication. 99(1), 681–694. https://doi.org/10.1007/s11277-017-5136-9.

W.H Shen, H.M Tsai. (2017). Testing Vehicle-to-Vehicle Visible Light Communications in Real-World Driving Scenarios. IEEE Vehicular Networking Conference (VNC).

Uysal, M, et.al., (2016). Visible Light Communication for Vehicular Networking_ Performance Study of a V2V System Using a Measured Headlamp Beam Pattern Model. IEEE Vehicular Technology Magazine . Doi: 10.1109/MVT.2015.2481561

A. R. Darlis. (2018). Bidirectional Underwater Visible Light Communication. International Journal of Electrical And Computer Engineering (IJECE). 8(6), 5203-5214.

Arnon, Shlomi, ed. (2015). Visible light communication . p. 1, Cambridge University Press.

Sindhubala K., & Vijayalakshmi, B. (2015). Ecofriendly Data Transmission in Visible Light Communication.

Min-Soo, Kim., & Kyung-Rak, Sohn. (2015). Performance Investigation of Visible Light Communication Using Super Bright White LED and Fresnel Lens. Journal of the Korean Society of Marine Engineering. 39(1), 63-67.

Fuada, Syifaul., Putra, Angga Pratama., Aska, Yulian., & Adiono, Trio. (2016). TransimpedanceAmplifier (TIA) Design for Visible Light Communication (VLC) using Commercially Available OP-AMP. Int. Conf. on Information Tech., Computer, and Electrical Engineering (ICITACEE).

Mossaad, Mohammed., Lampe, Lutz., & Hranilovic, Steve. (2015). Amplify-and-Forward Integration of Power Line and Visible Light Communications. GlobalSIP.

Yong-hyeon, Kim., Yeon-Ho, Chung., & Cahyadi, Willy Anugrah. (2015). Experimental Demonstration of VLC-Based Vehicle-to-Vehicle Communications Under Fog Conditions. IEEE Photonics Journal. 7(6).

E. Hecht. (1997). Optics 3nd edition . Addison-Wesley (Reading, MA).

Max Born and Emil Wolf. (1999). Principles of Optics 7th edition . UK: Cambridge University Press.




DOI: https://doi.org/10.26760/elkomika.v8i1.218

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ISSN (print) : 2338-8323 | ISSN (electronic) : 2459-9638

Publisher:

Department of Electrical Engineering Institut Teknologi Nasional Bandung

Address: 20th Building  Institut Teknologi Nasional Bandung PHH. Mustofa Street No. 23 Bandung 40124

Contact: +627272215 (ext. 206)

Email: jte.itenas@itenas.ac.id________________________________________________________________________________________________________________________


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