Monitoring System Kecepatan dan Arah Angin Berbasis Internet of Things (IoT) Menggunakan Raspberry Pi 3

  • Makmur Fernando Universitas Udayana
  • Lie Jasa Universitas Udayana
  • Rukmi Sari Hartati Universitas Udayana

Abstract

Wind is a natural resource that has many benefits for human life, for example, wind can be used to generate electricity, namely the wind power plant, for aircraft navigation purposes during takeoff and landing, as well as for aerospace sports such as paragliding, parasailing and aeromodeling. The existence of wind can also be detrimental to mankind, such as the existence of extreme weather that allows hurricanes, rainstorms, floods and landslides and high sea waves. This study expects to design a prototype tool monitoring system for wind speed and wind vane based on the Internet of Things (IoT) using the Raspberry Pi 3 model B+ as a data processor that can give data abouttwind speed and direction of the wind in realtime and can be accessed remotely when connected to the internet network. Test data read from the sensors displayed on the LCD 16 x 2 and sent to the web server using a router with the goal that it tends to be monitored online by the user with an internet connection. Wind speed data is read in rotations per minute (rpm) and wind direction data can detect up to 16 wind directions. The conclusion of this study is that the based wind speed and wind direction monitoring system Internet of Things (IoT) using Raspberry Pi 3 Model B+ can work properly. Wind speed and wind course information are stored in a database, which can be accessed on web the Telegram in realtime. Data transmission of wind speed and wind directions takes place every 1 minute.

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References

[1] Pramono, Y. 2016. “Monitoring Data Kecepatan Dan Arah Angin Secara Real time Melalui Web” (tugas akhir). Bandar Lampung: Universitas Lampung.
[2] Pratama, A., dkk. 2021. Rancang Bangun Sistem Monitoring Listrik Tiga Fasa Berbasis Wireless Sensor Network Menggunakan LoRa Ra-02 SX1278. Jurnal Majalah Ilmu Teknologi Elektro, Vol. 20, No.2, p-1693-2951, Juli-Desember 2021.
[3] Pesma, R.A., dkk. 2013. Rancang Bangun Alat Ukur Kelajuan dan Arah Angin Berbasis Mikrokontroler ATmega8535 Menggunakan Sistem Sensor Cahaya. Jurnal Fisika Unand. ISSN 2302-8491 Vol. 2, No. 4 Oktober 2013.
[4] Figurandi, V., dkk. 2019. Rancang Bangun Prototype Sistem Monitoring Wind Direction Indicator (WDI) dengan Sensor Arah Mata Angin dan Kecepatan Windsock Berbasis Microcontroller. Prosiding Seminar Nasional Inovasi Teknologi Penerbangan (SNITP). ISSN : 2548-8090.
[5] Septiana, Y., Wijaya. S.J. 2018. Perancangan Prototype Alat Pendeteksi Kelajuan dan Arah Angin Berbasis Mikrokontroler. Jurnal Algoritma Sekolah Tinggi Teknologi Garut. ISSN : 2302-7339 Vol. 15 No. 02 2018.
[6] Suryadi, D., dkk. 2019. Pembuatan Alat Ukur Kecepatan Angin Optocoupler dengan SMS Berbasis Mikrokontroler. Jurnal ROTASI. ROTASI, Vol. 21 No. 3 Juli 2019 Hal. 187-192.
[7] Fajar, M., dan Puspita, H. 2014. Perancangan dan Pembuatan Alat Ukur Kecepatan Angin Berdasarkan Perubahan Suhu untuk Penerjunan. Jurnal Industri Elektro dan Penerbangan, Vol. 4, No. 1, Februari 2014.
[8] Sinaulan, O.M., dkk. 2015. Perancangan Alat Ukur Kecepatan Kendaraan Menggunakan ATMega 16. E-Journal Teknik Elektro dan Komputer, ISSN 2301-8402.
[9] Sudarsono, J.F., dkk. Rancang Bangun Alat Ukur Kualitas Jaringan Berbasis Raspberry pi 3 Model B. Jurnal Majalah Ilmu Teknologi Elektro, Vol. 20, No.1, Januari-Juni 2021.
[10] Raven, Y., dkk. 2015. Implementasi TCP/IP untuk Membuat Server Database Access. Jurnal Teknologi Informasi, Vol. 11, No. 1, ISSN 1979-1496, Juni 2015.
[11] Ibrohim, M., dan Purwanty, N. 2017. Rancang Bangun Aplikasi Identifikasi Gaya Belajar Siswa Dengan Metode Forward Chaining. Jurnal ProTekinfo, Vol. 4, ISSN 2406-741, E-ISSN 2597-6559, Agustus 2017.
[12] Sari, M. 2016. Sistem Aplikasi Pengadaan Barang dan Jasa dengan Menggunakan JavaScript, MySQL, dan Internet. Jurnal Kajian Ilmu dan Teknologi, Vol. 5, No. 1, ISSN 2089-1245, April 2016.
[13] Putra, I.G.P.M.E., dkk. 2017. Monitoring Menggunakan Daya Listrik Sebagai Implementasi Internet of Things Berbasis Wireless Sensor Network. Jurnal Majalah Teknik Elektro, Vol. 16, No. 3, ISSN 1693-2951, e-ISSN 2503-2372, September-Desember 2017.
[14] Pratama, A., dkk. 2018. Rancang Bangun Alat Instrumentasi Menghitung Kecepatan dan Arah Angin Berbasis Arduino. Jurnal TEKTRO, Vol. 2, No. 2, ISSN 2581-280, September 2018.
[15] Fawwaz, R.E., dan Yendri, D. 2020. Rancang Bangun Sistem Oil Change Reminder Sepeda Motor Berbasis Mikrokontroler Menggunakan Android. Journal on Computer Hardware, Signal Processing, Embedded System and Networking, Vol. 1, No. 2, ISSN 2722-4422, 31 Oktober 2020.
[16] Pamungkas, R.H.S., dkk. 2020. Rancang Bangun Sistem Penyiraman Tanaman Sayur Berbasis Arduino dengan Sensor Kelembaban Tanah. Jurnal Ilmiah Mahasiswa Kendali dan Listrik, Vol. 1, No. 1, Juni 2020.
[17] Parito, dkk. 2021. Rancang Bangun Tongkat Pintar Tunanetra Berbasis Mikrokontroler. Jurnal SPEKTRUM, Vol. 8, No. 1, Maret 2021.
[18] Ependi, U. 2018. Pemodelan Sistem Informasi Monitoring Inventory Sekretariat Daerah Kabupaten Musi Banyuasin. Kumpulan jurnal Ilmu Komputer (KLIK), Vol. 5, No. 1, ISSN 2406-7857, 01 Februari 2018.
[19] Girsang, G., dkk. 2021. Rancang Bangun Prototipe Pengukuran Kecepatan Angin dan Arah Angin. e-Proceeding of Applied Science, Vol. 7, No. 6, ISSN 2442-5826, Desember 2021.
[20] Putra, O.F., dkk. 2017. Rancang Bangun Alat Ukur Kelajuan dan Arah Angin Menggunakan Sistem Telemetri Nirkabel dengan Transceiver nRF24L01+. Jurnal Fisika Unand. ISSN 2302-8491 Vol. 6, No. 4, Oktober 2017.
Published
2022-07-09
How to Cite
FERNANDO, Makmur; JASA, Lie; HARTATI, Rukmi Sari. Monitoring System Kecepatan dan Arah Angin Berbasis Internet of Things (IoT) Menggunakan Raspberry Pi 3. Majalah Ilmiah Teknologi Elektro, [S.l.], v. 21, n. 1, p. 135 - 142, july 2022. ISSN 2503-2372. Available at: <https://ojs.unud.ac.id/index.php/jte/article/view/83836>. Date accessed: 30 sep. 2022. doi: https://doi.org/10.24843/MITE.2022.v21i01.P18.