Penerapan Internet of Things pada Mekanik Prototipe Robot Pengaduk Gabah

Authors

  • Ade Chairany STMIK Kaputama Binjai
  • Relita Buaton STMIK Kaputama Binjai
  • Ratih Puspadini STMIK Kaputama Binjai

DOI:

https://doi.org/10.62951/repeater.v3i3.617

Keywords:

agricultural automation, ESP32, IoT, rice paddle robot, Smart farming technology

Abstract

Manual post-harvest paddy stirring requires significant time and labor and often results in uneven mixing, which can affect grain quality. To address this issue, this study designed and implemented a prototype of an Internet of Things (IoT)-based paddy stirring robot to simplify the process and improve efficiency. The system utilizes an ESP32 microcontroller as the main controller, DC motors as the stirring mechanism, and an IoT module for wireless connectivity to a mobile application. The research stages included hardware design, control system programming, IoT platform integration, and performance testing. Testing was conducted to evaluate response time, mixing uniformity, and power consumption. The results showed that the system could be operated remotely via a local Wi-Fi network with an average delay of less than 1 second, enabling real-time control. The prototype successfully stirred 0.3 kg of paddy with a mixing uniformity rate of 92% and an average power consumption of 12 watts. The application of IoT in the paddy stirring mechanism significantly improved time efficiency, reduced manual labor requirements, and maintained grain quality compared to traditional methods. These findings indicate the potential for further development into a large-scale automated paddy processing system with integrated humidity and temperature sensors for real-time quality monitoring, supporting the modernization of post-harvest processing through digital technology.

Downloads

Download data is not yet available.

References

Amelia, T., Marwan, D., Berliana, T., & Batubara, F. A. (2021). Rancang bangun sistem smart parking berbasis Internet of Things (IoT). Prosiding Seminar Nasional Teknologi Informasi dan Komunikasi, 2016, 104–112.

Asmazori, M. (2021). Rancang bangun alat pendeteksi NOx dan CO berbasis mikrokontroler ESP32 dengan notifikasi via Telegram dan suara. JITCE (Journal of Information Technology and Computer Engineering), 5(2), 57–62. https://doi.org/10.25077/jitce.5.02.57-62.2021

Awangga, Y., & Alfi, I. (2019). Rancang bangun mesin pengering gabah berbasis NodeMCU. Universitas Teknologi Yogyakarta, 2(1), 7. http://eprints.uty.ac.id/2492/1/Naskah%20Publikasi.pdf

Efendi, Y. (2018). Internet of Things (IoT) sistem pengendalian lampu menggunakan Raspberry Pi berbasis mobile. Jurnal Ilmiah Ilmu Komputer, 4(2), 21–27. https://doi.org/10.35329/jiik.v4i2.41

Habriansyah, I., Mukhtar, M., Pitriadi, P., Tandioga, R., Hamzah, F., Rasyid, M. F., & Jamalika, Y. (2023). Kontrol sistem mekanik prototipe robot pengaduk gabah berbasis Internet of Things. Jurnal Teknik Mesin Sinergi, 21(1), 92–96. https://doi.org/10.31963/sinergi.v21i1.4222

Hanif, L. (2020). Blynk. Wiki.Rdd-Tech.com. https://wiki.rdd-tech.com/index.php/knowledge-base/blynk/

Novansyah, H., Isro Mukti, Y., Syahri, R., & Tim Informatika STT Pagar Alam. (2021). Rancang bangun mesin pembuat pellet berbasis Internet of Things (IoT) untuk mengotomatisasi produksi pakan unggas. Jurnal Ilmiah Binary STMIK Bina Nusantara Jaya, 0(2).

Nur, M. I., & Aryanto, M. (2020). Pengembangan prototipe robot pengaduk pada proses pengeringan gabah menggunakan tenaga surya berbasis Internet of Things. http://repository.poliupg.ac.id/id/eprint/562/1/Pengembangan%20Prototipe%20Robot%20Pengaduk%20Pada%20Proses%20Pengeringan%20Gabah%20Menggunakan%20Tenaga%20Surya%20Berbasis%20Internet%20Of%20Things.pdf

Restiyani, R. (2021). Penerapan akad murabahah pada Bank Muamalat Indonesia Tbk. Penelitian, 4–12.

Ridwan, R., Hermaliani, H., & Ernawati, M. (2024). Penerapan. Computer Science (Co-Science), 4(1), 80–88. https://doi.org/10.31294/coscience.v4i1.2990

Rizal, M., Handayani, P., & Riadi, I. C. J. (2022). Sistem kendali suhu oven pengering gabah menggunakan fuzzy logic berbasis Internet of Things. Prosiding Industrial Research Workshop and National Seminar.

Rosaly, R., & Prasetyo, A. (2020). Pengertian flowchart beserta fungsi dan simbol-simbol flowchart yang paling umum digunakan.

Rose, K., Eldridge, S., & Chapin, L. (2015). The Internet of Things: An overview. The Internet Society (ISOC), 80, 1–50.

Samsugi, S., Yusuf, A. I., & Trisnawati, F. (2020). Sistem pengaman pintu otomatis dengan mikrokontroler Arduino dan modul RF remote. Jurnal Ilmiah Mahasiswa Kendali dan Listrik, 1(1), 1–6. https://doi.org/10.33365/jimel.v1i1.188

Shelemo, A. A. (2023). No title. Nuclear Physics, 13(1), 104–116.

Tulungagung, P. I., Dakwah, A., & Tulungagung, I. (2019). Analisis pemanfaatan ensiklopedia di perpustakaan IAIN Tulungagung. Shaut al-Maktabah, 11(1), 99–110. https://doi.org/10.15548/shaut.v11i1.123

Downloads

Published

2025-10-31

How to Cite

Ade Chairany, Relita Buaton, & Ratih Puspadini. (2025). Penerapan Internet of Things pada Mekanik Prototipe Robot Pengaduk Gabah. Repeater : Publikasi Teknik Informatika Dan Jaringan, 3(4), 49–61. https://doi.org/10.62951/repeater.v3i3.617

Issue

Vol. 3 No. 4 (2025): Oktober: Repeater : Publikasi Teknik Informatika dan Jaringan

Section

Articles

License

Copyright (c) 2025 Repeater : Publikasi Teknik Informatika dan Jaringan

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Similar Articles

<< < 1 2 3 4 > >> 

You may also start an advanced similarity search for this article.