Smart Dispenser Menggunakan Voice Recognition Berbasis Mikrokontroler

Main Article Content

Antony Richardo
Dodon Yendri

Abstract

Voice recognition technology is one of the technological breakthroughs that is currently widely used. The operation of voice recognition is only by saying commands to control devices that are integrated with the user as a tool to facilitate human activities and even replace the role of humans in certain functions. In using the dispenser, it is necessary to choose cold or hot water and pull the faucet directly on the dispenser, while during a pandemic like today, we are required to reduce direct contact with objects that are used together. The use of the dispenser also has limitations for the amount of water released because it cannot be measured in a definite amount because there has been no research conducted to regulate the amount of water that is filled into the glass used by the user. For this reason, the use of the Voice Recognition module can be used as a solution to reduce direct touch to the dispenser because it utilizes voice commands given by the user and the Waterflow sensor is used to calculate the amount of water that will come out of the water faucet on the dispenser.

Article Details

How to Cite
[1]
A. Richardo and D. Yendri, “Smart Dispenser Menggunakan Voice Recognition Berbasis Mikrokontroler”, chipset, vol. 3, no. 01, pp. 64-72, Apr. 2022.
Section
Articles

References

[1] Ir. Nurussa’adah, dan MT. Eka Maulana, 2013, “Dispenser Pengisi Gelas Otomatis Sensor Ultrasonik dan Sensor Posisi Resitif”. Jurnal Teknik Elektro. Vol 5, No,2.
[2] Hidayati, Yulita; 2019, “Rancang Bangun Sistem Pengaturan Suhu Air Panas Pada Dispenser Menggunakan Metode Propotional Integral Derivative (PID).”.
[3] Yendri, Dodon; Rizza, Hadzimah; Rahmadya, Budi; Derisma, 2019, “Designing Hygienic and Energy Saving of Water Dispenser Machine”. IOP Conference Series: Materials Science and Engineering, Volume 846, Issue 1, pp. 012039 (2020).
[4] Imario Anjar, Sudiharto W. Dodi, Ariyanto Endro (2017). “Uji Validasi Suara Berbasis Pengenalan Suara (Voice Recognition) Menggunakan Easy VR 3.0. Prosiding

SNATIF Ke -4 Tahun 2017”. ISBN: 978-602-1180-50-1.
Universitas Telkom
[5] http://eprints.uny.ac.id/775-7/3/bab%202%20- 0650613402.pdf. Diakses pada januari 2021
[6] Nurul Fatimah, Ratna Aisuwarya. 2019. “Rancang Bangun Sistem Pencampur Minuman Jamu Otomatis Berbasis Mikrokontroler”. Journal of Information Technology and Computer Engineering. Vol 3 No 01.
[7] Santoso Hari (2015). “Panduan Praktis Arduino Untuk Pemula”. Malang : Universitas Brawijaya
[8] Gentha Farokhi Wildian Wildian, Nini Firmawati. 2019. “Rancang Bangun Mesin Pembuat Minuman Kopi Otomatis Berbasis Arduino UNO dengan Kontrol Android”. Journal of Information Technology and Computer Engineering, Vol 3 No 01
[9] Pushkar Singh, Sanghamitra Saikia, 2017, “Arduino-based smart irrigation using water flow sensor, soil moisture sensor, temperature sensor and ESP8266 WiFi module”. IEEE Region 10 Humanitarian Technology Conference (R10-HTC)
[10] Amin Suharjono, Listya Nurina Rahayu, Roudlotul Afwah. 2015. “Aplikasi Sensor Flow Water Untuk Mengukur Penggunaan Air Pelanggan Secara Digital Serta Pengiriman Data Secara Otomatis Pada PDAM Kota Semarang”. Jurusan Teknik Elektro, Politeknik Negeri Semarang, Indonesia.
[11] Lei, L., Desheng, Z., & Jiyun, Z. (2014). “Design and Research for the Water Lowpressure Large-flow Pilot- operated Solenoid Valve”. Journal of Mechanical Engineering, 665-674.
[12] Suprianto. 2015. “Pengertian dan Prinsip Kerja Solenoid Valve”. http://blog.unnes.ac.id . diakses pada januari 2021.
[13] Dickson Kho, 2017, “Pengertian Relay dan Fungsinya”. Teknikelektronika.com. diakses pada januari 2021.
[14] Aripriharta, S.T., M.T. 2014. “Smart Relay dan Aplikasinya”, Yogyakarta: Graha Ilmu.
[15] Setyo, Eko, Adian Ftchur Rochim dan Didik Widianto, 2015. “Handsght: Hand-Mounted Device Untuk Membantu Tuna Netra Berbasis Ultrasonik dan Arduino”. Jurnal Teknologi dan Sistem Komputer, vol 3, No. 1.
[16] EasyVR Datasheet. http://www.veear.eu/. Diakses tanggal: 15 Juni 2013. Austria: TIGAL KG.
[17] Nurul Isna Ganggalia, Tsabita Halimah Khoirunisa, Adinda Rahmi Saraswati, Apri Junaidi. 2019. “Prototype Alat Pengendali Lampu Dengan Perintah Suara Menggunakan Arduino Uno Berbasis Web”, Journal of Informatics,
Information System, Software Engineering and


Applications, J. OF INISTA, VOL. 2, NO. 1, PP.007-013, NOV 2019.
[18] Aidi Finawan, A. M., 2018. “Pengukuran Debit Air Berbasis Mikrokontroler AT89S51. Jurnal Litek”, 8(1), 28– 31.
[19] Yogi Ramadan Putra, dan Dedi Triyanto, S., 2017. “Rancang Bangun Perangkat Monitoring dan Pengaturan Penggunaan Air (Perusahaan Daerah Air Minum) Berbasis Arduino dengan Antarmuka Website”. Jurnal Coding Sistem Komputer Untan, 05(1), 33 – 44.
[20] Nurhayati, Novriyenni, Irwansyah Ilham, 2017. “Automatic Water Tank Pump Switcher Using Microkontroller Atmega16”. Jurnal Teknik Informatika Kaputama (JTIK), Vol 1 No 1, Januari 2017.
[21] "Organic light emitting display (OLED) device and method of fabricating the same," pp. 1-10, 2010.