Color Filter Identification for Bidirectional  Visible Light Communication

ABSTRAKSaat ini, cahaya tampak dimanfaatkan oleh manusia hanya sebagai penerangan saja. Akan tetapi, beberapa penelitian telah membuktikan bahwa cahaya tampak dapat dimanfaatkan pula pada sistem komunikasi, yang dinamakan Visible Light Communication (VLC). Pada penelitian ini, sebuah metoda menggunakan color filter diidentifikasi dalam mengimplementasikan sistem bidirectional pada teknologi VLC. Dengan adanya penelitian ini, sebuah sistem bidirectional Visible Light Communication (Bi-VLC) dapat diimplementasikan dengan menggunakan color filter tertentu yang dipasangkan pada posisi uplink dan downlink. Sinyal informasi berupa sinyal audio ditansmisikan melalui VLC transmitter (Tx) yang dipasang color filter dan diterima oleh color filter pada VLC receiver (Rx) setelah melalui media cahaya. Pengujian menunjukan bahwa sistem telah dapat melewatkan sinyal pada frekuensi audio dengan jarak maksimum dari sistem adalah 2,3 m. Sedangkan pasangan color filter yang memiliki kinerja paling baik untuk BI-VLC adalah Azure (Tx) dengan Charteuse Green (Rx), Charteuse Green (Tx) dengan Charteuse Green (Rx), dan Rose (Tx) dengan Charteuse Green (Rx).Kata kunci: Bidirectional, Visible Light Communication (VLC), Color Filter, AudioABSTRACTCurrently, visible light are utilized by humans as illumination only. However, several research have proven that visible light can also be used in communication systems, called Visible Light Communication (VLC). In this research, a method of using color filters was identified for bidirectional systems on VLC technology. With this research, a bidirectional Visible Light Communication (Bi-VLC) system can be implemented using a specific color filter paired in uplink and downlink mode. The audio signal as information is transmitted through a VLC transmitter (Tx) installed by a color filter and received by the color filter on the VLC receiver (Rx) after going through the light media. The result shows that the system has been able to pass the signal at the audio frequency with the maximum distance of the system is 2.3 m. While the best performance of color filter pair for BI-VLC is Azure (Tx) with Charteuse Green (Rx), Charteuse Green (Tx) with Charteuse Green (Rx), and Rose (Tx) with Charteuse Green (Rx).Keywords: Bidirectional, Visible Light Communication (VLC), Color Filter, Audio

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Sistem Komunikasi Suara Bawah Air dengan Metoda Simplex menggunakan Visible Light Communication (VLC)

ELKOMIKA Jurnal Teknik Energi Elektrik Teknik Telekomunikasi & Teknik Elektronika ◽

10.26760/elkomika.v7i2.253 ◽

2019 ◽

Vol 7 (2) ◽

pp. 253

Author(s):

LUCIA JAMBOLA ◽

ARSYAD RAMADHAN DARLIS ◽

LITA LIDYAWATI ◽

DZIKRI FACHRI HUSAENI

Keyword(s):

Visible Light ◽

Communication Systems ◽

Light Transmission ◽

Visible Light Communication ◽

Color Filter ◽

Underwater Communication ◽

Test Results ◽

Voice Communication ◽

Yellow Color ◽

Long Time

ABSTRAKSistem komunikasi suara bawah air telah dikenal sejak lama, diantaranya sonar dan akustik. Seiring perkembangan zaman dan kemajuan teknologi, kini hadir komunikasi dengan media transmisi cahaya tampak yaitu Visible Light Communication (VLC) yang dapat diterapkan pada komunikasi bawah air. Pada penelitian ini telah dilakukan komunikasi suara bawah air (simplex) menggunakan VLC, dengan media akuarium berisi air dan beberapa pengujian diantaranya menggunakan color filter, didapat hasil pengujian terbaik yaitu tegangan 4,4 Vpp dan frekuensi 3,003 kHz untuk color filter yellow, pengujian menggunakan lensa didapat hasil pengujian terbaik yaitu tegangan 4,4 Vp-p dan frekuensi 3,051 kHz untuk lensa (+50), dan pengujian terakhir menggunakan lampu UV didapat hasil pengujian terbaik dengan tegangan 4,4 Vp-p dan frekuensi 3,010 kHz. Implementasi sistem VLC ini menunjukkan hasil yang baik dan layak untuk diterapkan pada komunikasi suara bawah air (simplex).Kata kunci: VLC, Komunikasi Suara Bawah Air, Simplex. ABSTRACTUnderwater voice communication systems have been known for a long time, including sonar and acoustics. Along with the development and advancement of technology, now there is communication with visible light transmission media, namely Visible Light Communication (VLC) which can be applied to underwater communication. Under this study underwater voice communication (simplex) has been carried out using VLC, with aquarium media containing water and several tests including using a color filter, the best test results obtained are voltage 4.4 Vp-p and frequency 3.003 kHz for yellow color filter, testing using the lens obtained the best test results namely voltage 4.4 Vp-p and frequency 3.051 kHz for lenses (+50), and the last test using UV lights obtained the best test results with a voltage of 4.4 Vp-p and a frequency of 3.010 kHz. The implementation of the VLC system shows good and feasible results to be applied to underwater voice communication (simplex).Keywords: VLC, Underwater Voice Communication, Simplex.

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Performance of Outdoor Lamp Implementation for Visible Light Communication under Ambient Environment

10.31227/osf.io/7uqp9 ◽

2018 ◽

Author(s):

Ronaldo Soritua Sitanggang ◽

Denny Darlis ◽

Karina Wahyu Noviyanti

Keyword(s):

Light Intensity ◽

Visible Light ◽

Communication Systems ◽

Optical Power ◽

Visible Light Communication ◽

Digital Data ◽

Maximum Distance ◽

Optimal Distance ◽

Types Of Information ◽

Incandescent Lamps

This article is preprint for ASAIS 2018 - Visible Light Communication is the name given to wireless communication systems that convey information by modulating visible light by the human eye. Interest in the field of VLC has grown rapidly along with the development of LEDs as a source of lighting. The motivation is clear: If the room is lit by an LED, why not use it further for the communication provider, along with the lighting facilities at the same time? At the sending side, VLC technology uses LED lighting lamps which are currently very popular to replace incandescent lamps and TL (Fluorescent Lamp) lamps. Visible light communication has many advantages, including security, speed, and convenience to be applied to users to send various types of information including digital data such as text and images. Several studies have been conducted previously regarding the application of information delivery systems using VLC such as sending voice, digital data, images, and video. However, it has not been clearly stated the influence of various lighting lamps used on the system mentioned above such as electrical and optical power used, the angle of transmission and optimal distance with the influence of environmental conditions that cause information transmission losses. Data that can be sent well use yard lighting with a maximum distance of 130 cm with 15 lx light intensity, street lighting with a maximum distance of 400 cm with 6 lx light intensity, and vehicle lights with a maximum distance of 270 cm with 12 lx light intensity.

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TRAFFIC LIGHT SYSTEMS MENGGUNAKAN VISIBLE LIGHT COMMUNICATION (VLC) SEBAGAI ALAT BANTU TUNANETRA UNTUK MENYEBERANG JALAN

TESLA: Jurnal Teknik Elektro ◽

10.24912/tesla.v22i1.7770 ◽

2020 ◽

Vol 22 (1) ◽

pp. 34

Author(s):

Arsyad Ramadhan Darlis ◽

Dean Adrian

Keyword(s):

Visible Light ◽

Audio Signal ◽

Visible Light Communication ◽

Outdoor Environment ◽

Wearable Device ◽

Color Filter ◽

Traffic Light ◽

Traffic Lights ◽

Yellow Filter ◽

Information Signal

The people with visual impairment have problems in mobility and orientation, especially in the outdoor environment. Recently, traffic lights systems, which is a facility where someone crosses do not support visually implaired people so they still need help from others in crossing the road. In this study, a system that integrates traffic lights is implemented using Visible Light Communication (VLC) technology, where the VLC transmitter is mounted on a traffic light, and the VLC receiver is installed as a wearable device that can be used with the audio information signal. The measurement is done by considering the use of color filters. The measurement results show that the transmitter system has been able to send signals with audio frequencies from 300 Hz to 4000 Hz. Besides that, receiving an information signal consisting of a audio signal from a transmitter mounted on a traffic light with a red, yellow and green color filter can be received by a VLC receiver that is placed on a visually impaired person of good quality with the signal voltage received above 4 Vpp, where the use of a yellow filter shows the best signal reception results with a voltage output of 5.00 Vpp at a frequency of 2400 Hz compared to other color filters.ABSTRAK: Penyandang tuna netra memiliki masalah dalam hal mobilitas dan orientasi, khususnya di lingkungan luar (outdoor). Pada sistem yang terdapat pada lampu lalu lintas (traffic light) yang merupakan fasilitas dimana seseorang menyebrang saat ini belum mendukung penyandang tuna netra, sehingga sampai saat ini masih membutuhkan bantuan orang lain dalam menyebrang jalan. Pada penelitian ini, sebuah sistem yang diintegrasikan pada lampu lalu lintas diimplementasikan menggunakan teknologi Visible Light Communication (VLC), dimana VLC transmitter dipasang pada lampu lalu lintas dan VLC receiver dipasang sebagai wearable device dengan sinyal informasi suara digunakan oleh penyandang tunanetra sehingga dapat menerima informasi mengenai kondisi lampu lalu lintas pada saat itu. Pengujian sistem dilakukan dengan mempertimbangkan penggunaan filter berwarna. Hasil pengukuran menunjukan bahwa sistem transmitter telah dapat mengirimkan sinyal dengan frekuensi suara dari 300 Hz sampai 4000 Hz. Disamping itu, penerimaan sinyal informasi berupa sinyal suara dari transmitter yang terpasang pada lampu lalu lintas dengan filter warna Merah, Kuning dan Hijau telah dapat diterima oleh receiver yang ditempatkan pada penyandang tuna netra dengan kualitas baik dengan tegangan sinyal yang diterima diatas 4 Vpp, dimana penggunaan filter warna kuning menunjukan hasil penerimaan sinyal yang paling baik dengan tegangan output 5,00 Vpp pada frekuensi 2400 Hz dibandingkan dibandingkan penggunaan filter warna lainnya

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