Desain dan Implementasi Sistem Visible Light Communication berbasis Pulse Width Modulation
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https://doi.org/10.24843/MITE.2018.v17i02.P11
Abstrak
Desain, implementasi, dan pengujian sistem komunikasi cahaya tampak menggunakan modulasi 1-PWM telah dibahas pada makalah ini. Sistem terdiri atas blok utama: VLC coordinator yang terdiri atas DSP dan AFE transmitter. VLC client terdiri atas AFE receiver dan DSP receiver. Perangkat DSP pada projek ini berbasis Mikrokontroller STM32F4 yang difungsikan untuk modulasi-demodulasi. Hasil demonstrasi menunjukkan bahwa streaming konten teks sebesar 10 kb dapat didemonstrasikan dengan baik. Sistem VLC dapat digunakan dengan optimal pada jarak 50 – 70 cm (sudut = 0o). Secara keseluruhan, laju data maksimum yang dicapai adalah 3.3 kbps.
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Referensi
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[12] S. Fuada, T. Adiono, A. P. Putra, and Y. Aska, “A Low-cost Analog Front-End (AFE) Transmitter Designs for OFDM Visible Light Communications,” Proc. of the IEEE Int. Symposium on Electronics and Smart Devices (ISESD), pp. 371-375, October 2016. DOI: 10.1109/ISESD.2016.7886750.
[13] S. Fuada, and T. Adiono, “Rancang Bangun Layer Fisik Visible Light Communication Pada Sistem Transmisi Audio,” J. INFOTEL, Vol. 9(3), pp. 352-360, August 2017. DOI: https://doi.org/10.20895/infotel.v9i3.288.
[14] T. Adiono, S. Fuada, A.P. Putra, and Y. Aska, “Desain Awal Analog Front-End Optical Transceiver untuk aplikasi Visible Light Communication,” J. Nasional Teknik Elektro dan Teknologi Informasi (JNTETI), Vol. 5(4), pp. 319-327, November 2016. DOI: 10.22146/jnteti.v5i4.280.
[15] S. Fuada, A.P. Putra, Y. Aska, and T. Adiono, “Trans-impedance Amplifier (TIA) Design for Visible Light Communication (VLC) using Commercially Available OP-AMP,” Proc. of the 3rd Int. Conf. on Information Tech. Computer, and Electrical Engineering (ICITACEE), pp. 31-35, October 2016. DOI: 10.1109/ICITACEE.2016.7892405.
[16] S. Fuada, A.P. Putra, Y. Aska and T. Adiono, “A First Approach to Design Mobility Function and Noise Filter in VLC System Utilizing Low-cost Analog Circuits,” Int. J. of Recent Contributions from Engineering, Science, and IT (iJES), Vol. 5(2), pp. 14 – 30, 2017. DOI: 10.3991/ijes.v5i2.6700.
[17] T. Adiono, and S. Fuada, “Investigation of Optical Interference Noise Characteristics in Visible Light Communication System,” Proc. of the 2017 Int. Symp. on Nonlinear Theory and Its Applications (NOLTA), pp. 612-615, December 2017.
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[19] T. Adiono, A. Pradana, R.V.W. Putra, and S. Fuada, “Analog Filters Design in VLC Analog Front-End Receiver for Reducing Indoor Ambient Light Noise,” Proc. of the IEEE Asia Pacific Conf. on Circuit and Systems (APCCAS), pp. 581-584, October 2016. DOI: 10.1109/APCCAS.2016.7804058.
[20] S. Fuada, R.A. Saputro, and T. Adiono, “Automatic Gain Control Circuit for Mobility Visible Light Communication System using LM13700” Proc. of the IEEE Int. Symposium on Electronics and Smart Devices (ISESD), Yogyakarta, Indonesia, October 2017
[2] A.A.E. Paramita, G. Sukadarmika, and P.K. Sudiarta, “Analisis kualitas jaringan lokal akses fiber optic pada Indihome PT. Telkom di area Jimbaran,” J. Teknologi Elektro, Vol. 16(1), pp. 1-5, 2017.
[3] I.P.G.Y. Pratama, G. Sukadarmika, and P.K. Sudiarta, “Perancangan jaringan fiber to the home (FTTH) menggunakan teknologi gigabyte passive optical network (GPON) pada mall park23 Tuban,” J. Teknologi Elektro, Vol. 16(2), pp. 60-65, 2017.
[4] M. Figueiredo, L.N. Alves, and C. Ribeiro, “Lighting the Wireless World,” IEEE Consumer Electronics Magazine, pp. 28-37, October 2017.
[5] T. Adiono, S. Fuada, and S. Harimurti, “Bandwidth Budget Analysis for Visible Light Communication Systems utilizing Commercially Available Components,” Proc. of the 10th Int. Conf. on Electrical and Electronics Engineering (ELECO), pp. 1375-1380, December 2017.
[6] S. Fuada, A.P. Putra, and T. Adiono, “Analysis of Received Power Characteristics of Commercial Photodiodes in Indoor LoS Channel Visible Light Communication,” Int. J. of Advanced Computer Science and Applications (IJACSA), Vol. 8(7), pp. 164-172, July 2017. DOI: 10.14569/IJACSA.2017.080722.
[7] S. Fuada, “Kajian Aspek Security pada Jaringan Informasi dan Komunikasi Berbasis Visible Light Communication,” J. INFOTEL, Vol. 9(1), pp. 108-121, August 2017. DOI: https://doi.org/10.20895/infotel.v9i1.163.
[8] S. Rajagopal, R.D. Roberts, and S-K. Lim, “IEEE 802.15.7 Visible Light Communication: Modulation Schemes and Dimming Support,” IEEE Communications Magazine, March 2012.
[9] A. Pradana, “Rancang Bangun Layer Fisik Komunikasi Cahaya Tampak Berbasis DC-OFDM dan PWM,” Master Thesis, ITB, Indonesia, 2016.
[10] A. Pradana, et al., “VLC Physical Layer Design based on Pulse Position Modulation (PPM) for Stable Illumination,” Int. Symp. on Intellegent Signal Processing and Communication Systems (ISPACS), pp. 368-373, November 2015.
[11] STM32F4 Series, “STM32F4 series of high-performance MCUs with DSP and FPU instructions. [Online] http://www.st.com/en/microcontrollers/stm32f4-series.html?querycriteria=productId=SS1577
[12] S. Fuada, T. Adiono, A. P. Putra, and Y. Aska, “A Low-cost Analog Front-End (AFE) Transmitter Designs for OFDM Visible Light Communications,” Proc. of the IEEE Int. Symposium on Electronics and Smart Devices (ISESD), pp. 371-375, October 2016. DOI: 10.1109/ISESD.2016.7886750.
[13] S. Fuada, and T. Adiono, “Rancang Bangun Layer Fisik Visible Light Communication Pada Sistem Transmisi Audio,” J. INFOTEL, Vol. 9(3), pp. 352-360, August 2017. DOI: https://doi.org/10.20895/infotel.v9i3.288.
[14] T. Adiono, S. Fuada, A.P. Putra, and Y. Aska, “Desain Awal Analog Front-End Optical Transceiver untuk aplikasi Visible Light Communication,” J. Nasional Teknik Elektro dan Teknologi Informasi (JNTETI), Vol. 5(4), pp. 319-327, November 2016. DOI: 10.22146/jnteti.v5i4.280.
[15] S. Fuada, A.P. Putra, Y. Aska, and T. Adiono, “Trans-impedance Amplifier (TIA) Design for Visible Light Communication (VLC) using Commercially Available OP-AMP,” Proc. of the 3rd Int. Conf. on Information Tech. Computer, and Electrical Engineering (ICITACEE), pp. 31-35, October 2016. DOI: 10.1109/ICITACEE.2016.7892405.
[16] S. Fuada, A.P. Putra, Y. Aska and T. Adiono, “A First Approach to Design Mobility Function and Noise Filter in VLC System Utilizing Low-cost Analog Circuits,” Int. J. of Recent Contributions from Engineering, Science, and IT (iJES), Vol. 5(2), pp. 14 – 30, 2017. DOI: 10.3991/ijes.v5i2.6700.
[17] T. Adiono, and S. Fuada, “Investigation of Optical Interference Noise Characteristics in Visible Light Communication System,” Proc. of the 2017 Int. Symp. on Nonlinear Theory and Its Applications (NOLTA), pp. 612-615, December 2017.
[18] T. Adiono, and S. Fuada, “Investigation of Optical Interference Noise Characteristics in Visible Light Communication System,” Proc. of the 2017 Int. Symp. on Nonlinear Theory and Its Applications (NOLTA), pp. 612-615, December 2017.
[19] T. Adiono, A. Pradana, R.V.W. Putra, and S. Fuada, “Analog Filters Design in VLC Analog Front-End Receiver for Reducing Indoor Ambient Light Noise,” Proc. of the IEEE Asia Pacific Conf. on Circuit and Systems (APCCAS), pp. 581-584, October 2016. DOI: 10.1109/APCCAS.2016.7804058.
[20] S. Fuada, R.A. Saputro, and T. Adiono, “Automatic Gain Control Circuit for Mobility Visible Light Communication System using LM13700” Proc. of the IEEE Int. Symposium on Electronics and Smart Devices (ISESD), Yogyakarta, Indonesia, October 2017
Diterbitkan
2018-09-28
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PRADANA, Angga; FUADA, Syifaul; ADIONO, Trio.
Desain dan Implementasi Sistem Visible Light Communication berbasis Pulse Width Modulation.
Jurnal Teknologi Elektro, [S.l.], v. 17, n. 2, p. 237-244, sep. 2018.
ISSN 2503-2372.
Tersedia pada: <https://ojs.unud.ac.id./index.php/mite/article/view/35773>. Tanggal Akses: 20 apr. 2025
doi: https://doi.org/10.24843/MITE.2018.v17i02.P11.
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