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Characteristics of Wireless Vibration Sensors for South Aceh Polytechnic Building

Authors

  • Oktrison Oktrison Politeknik ATI Padang, Indonesia
  • Erwinsyah Sipahutar Politeknik ATI Padang, Indonesia
  • Firdaus Jamsan Politeknik ATI Padang, Indonesia
  • Rudi Arif Candra Politeknik Aceh Selatan, Indonesia
  • Dirja Nur Ilham Politeknik Aceh Selatan, Indonesia

DOI:

10.47709/brilliance.v4i2.4605

Keywords:

Wireless Vibration sensor, South Aceh Polytechnic, MPU5060

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Abstract

Vibration is a back-and-forth movement in a certain time interval that produces waves in a medium. Vibration can occur on a small or large scale. So on a small scale, a vibration sensor is needed to detect certain phenomena such as vibrations of engine capacity and detected pressure. On a large scale, vibration sensors can be used to detect earthquakes and other major phenomena and design a real-time vibration detection system for long distances, so vibration sensor components, controllers, and radio systems are needed. Therefore, researchers made a simple vibration detector using the experimental method. This final project aims to design, realize, and test the characteristics of the MPU 5060 accelerometer vibration sensor that is connected wirelessly. The characteristics of the sensor are tested against the magnitude of the vibration source, the distance of the vibration source, the placement medium, and the detection period. After testing the tool 10 times, it can be concluded that this simple vibration detector functions well and the highest average load results are obtained, namely in the 1-kilogram load test with a value of 1.93026 and the lowest average results are in the ceramic load test with a value of 0.651357.

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References

Andianingsari, D., Rahman, A., Parningotan, S., & Kuncoro, D. (2023). Pengukuran Getaran Seluruh Tubuh sesuai dengan Permenaker No. 5 Tahun 2018 di PT. A. IMTechno: Journal of Industrial Management and Technology, 4(2), 129–134. https://doi.org/10.31294/imtechno.v4i2.2127

Ariansyah, W., Ilham, D. N., Khairuman, K., & Candra, R. A. (2021). Opening Doors Using Internet Of Things (IoT) Based Face Recognition. Brilliance: Research of Artificial Intelligence, 1(2), 32–37. https://doi.org/10.47709/brilliance.v1i2.1095

Ariyanto. (2019). Pengukuran Getaran Untuk Menentukan Tingkat Getaran Pada Sistem Transmisi Variable Speed Mesin Milling Dengan Menggunakan Getaran Overall. Manutech?: Jurnal Teknologi Manufaktur, 11(02), 57–63.

Fadilah, F., Paniran, & Wahyu W, G. (2015). Rancang Bangun Sistem Pengunci Pintu Otomatis Menggunakan Pendeteksi Getaran Ketukan. 2(1), 67–76.

Fitriyani, Y. (2022). Security Door System Using Knock Sensor Based On Arduino Uno. 12(01), 13–17. http://ejournal.seaninstitute.or.id/index.php/InfoSains

Ilham, D. N., Candra, R. A., Budiansyah, A., Sipahutar, E., Harahap, M. K., & Anugreni, F. (2022). Implementation of Vibration Sensor and Pin Lock using Keypad for Charity Box Security. International Journal of Multidisciplinary Sciences and Arts, 1(2), 125–133. https://doi.org/10.47709/ijmdsa.v1i2.2050

Kurniawan, A., Wisjhnuadji, T., Narendro, A., & Firdaus, R. A. (2020). Sistem Deteksi Lokasi Gempa Menggunakan Arduino Mega 2560, Sensor SW-420, GPS Dan Notifikasi SMS. Jurnal BIT (Budi Luhur Information Teknology), 17(1), 62–68. https://journal.budiluhur.ac.id/index.php/bit/article/view/1016

Maqfirah, Anugreni, F., Ilham, D. N., Harahap, M. K., & Harmayani, H. (2023). Implementation of the Internet of Things on a Wheelchair using the MPU6050 Sensor. JATAED: Journal of Appropriate Technology for Agriculture, Environment, and Development, 1(1), 28–33. https://doi.org/10.62671/jataed.v1i1.17

Novianta, M. A. (2012). Sistem Deteksi Dini Gempa Dengan Dengan Piezo Elektrik Berbasis Mikrokontroler At89C51. Simposium Nasional RAPI XI FT UMS - 2012, 1(1), 96–103. https://publikasiilmiah.ums.ac.id/xmlui/bitstream/handle/11617/3925/E14.pdf?sequence=1

Pei, Q., Qi, P., Lu, Y., & Qin, L. (2023). Development and Verification of Wireless Vibration Sensors. Buildings, 13(7), 1–27. https://doi.org/10.3390/buildings13071648

Purwaningsih, A., Tohir, S., Nawangsari Rahayu, S., & Destiana Purwita, L. (2023). Study of Ground Vibration Measurements in Blasting Operations at PT Semen Baturaja (Persero) Tbk. UEEJ-Unbara Environmental Engineering Journal, 03(02), 1–6.

Purwanto, B., Zulfachmi, Z., & Budi Purwaka, P. (2022). Mechanical Vibration Measurement Based on Building Type. Jurnal Ecolab, 16(1), 31–38. https://doi.org/10.20886/jklh.2022.16.1.31-38

Suherman, Fahmi, Hasnita, U., & Herri, Z. (2021). Design and characteristics assessment of wireless vibration sensor for buildings and houses. Indonesian Journal of Electrical Engineering and Computer Science, 21(3), 1381–1388. https://doi.org/10.11591/ijeecs.v21.i3.pp1381-1388

Suraya, & Novianta, M. A. (2013). Prototipe Deteksi Gempa Menggunakan Metode Perambatan Gelombang Pada Sensor Getar Berbasis Mikrokontroler Dengan Informasi SMS Gateway. Simposium Nasional RAPI XII-2013 FT UMS, XII(December 2013), 1–15.

Ulil Albab, Rony Darpono, & Fahreza Moch Revikansyah. (2023). Rancang Bangun Sistem Informasi Gempa Menggunakan Raspberry Pi Berbasis Web. Jurnal Ilmiah Sains Teknologi Dan Informasi, 1(1), 1–10. https://doi.org/10.59024/jiti.v1i1.118

Urmila, T., Candra, R. A., Ilham, D. N., & Harahap, M. K. (2024). Design of Safety Worker Helmets Based on the Internet of Things. PERFECT: Journal of Smart Algorithms, 1(1), 18–22.

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ARTICLE Published HISTORY

Submitted Date: 2024-08-29
Accepted Date: 2024-08-30
Published Date: 2024-09-16

How to Cite

Oktrison, O., Sipahutar, E., Jamsan, F., Candra, R. A., & Ilham, D. N. (2024). Characteristics of Wireless Vibration Sensors for South Aceh Polytechnic Building. Brilliance: Research of Artificial Intelligence, 4(2), 470-477. https://doi.org/10.47709/brilliance.v4i2.4605

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