Design and Construction of Mice Detection and Removal Equipment in the House Based on the Internet of Things (IoT)

Authors

Zakia Lubis , Mulkan Iskandar Nasution , Nazaruddin Nasution

DOI:

10.29303/jpm.v19i3.6771

Published:

2024-05-29

Issue:

Vol. 19 No. 3 (2024): May 2024

Keywords:

Detection; ESP32 Cam; Microcontroler ESP32 ; PIR sensor

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How to Cite

Lubis, Z., Nasution, M. I., & Nasution, N. (2024). Design and Construction of Mice Detection and Removal Equipment in the House Based on the Internet of Things (IoT). Jurnal Pijar Mipa, 19(3), 529–534. https://doi.org/10.29303/jpm.v19i3.6771

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Abstract

Rats are rodents that have a negative impact on society, both in agriculture and industry. Rodents roaming around in the house can damage electrical connections, which can trigger fires and cause fires, as well as causing economic losses. This research used a PIR sensor to detect movement and an ESP32 cam to stream live video on the blynk application. Box two contains a series of ultrasonic sound generators emitted through speakers. Additionally, tool tests were carried out using a 12 V battery test, PIR sensor test, relay test, ESP32 Cam, ultrasonic generator PWM test, Blynk test, and tool test on mice. This research aims to design a device for detecting and repelling mice in homes based on the Internet of Things (IoT). The design of this tool uses an ESP32   microcontroller as the main controller. This tool also has components such as an ESP32   cam, relay, ultrasonic speaker, 3.7-volt battery, PIR sensor, servo motor, and ultrasonic sound generator module. This tool has a working system in the form of a PIR sensor that detects mouse movement. Then the ultrasonic sound automatically comes on, the servo motor moves and the ESP32   cam connected to the Blynk application will stream live video. This tool also has an on and off button system via the blynk application. The test results carried out by the PIR sensor were able to detect the presence of objects at a distance of 5 m. The frequency issued by the ultrasonic module and measurements made via an oscilloscope has an average percent error of 1,02%. This proves that the performance of the designed prototype tool works well. The results of tests to repel mice using ultrasonic sound, which could disturb the mice, were at 40-50 kHz. The overall test results for the home IoT-based mouse detection and repellent system worked well.

References

Ahadiah, S., Muharnis, & Agustiawan. (2017). Implementasi Sensor Pir Pada Peralatan. Inovtek Polbeng, 07(1), 29–34.

Al khairi, muhammad habib. (2023). Motor Servo: Pengertian, Cara Kerja, Kelebihan, Kekurangan dan Aplikasinya.

Almanda, D., Krisdianto, K., & Dermawan, E. (2017). Manajemen Konsumsi Energi Listrik Dengan Menggunakan Sensor Pir Dan Lm 35. Elektum, 14(1), 16.

Artiyasa, M., Nita Rostini, A., Edwinanto, & Anggy Pradifta Junfithrana. (2021). Aplikasi Smart Home Node Mcu Iot Untuk Blynk. Jurnal Rekayasa Teknologi Nusa Putra, 7(1), 1–7.

Budijanto, A., Winardi, S., & Susilo, K. E. (2021). Interfacing ESP32 . Scopindo Media Pustaka.

Gofur Saleh, M., & Subijanto. (2013). Perancangan Dan Pembuatan Prototype Kode Pangaman Berbasis Mikrokontroler Untuk Sepeda Motor. Issn 2087 – 9245, 3(3), 38.

Hidayat, H. T., Akhyar, & Mahdi. (2019). Rancang Bangun Prototipe Pengusir Hama Tikus dan Burung Berbasis Internet of Things ( IoT ). Proceeding Seminar Nasional Politeknik Negeri Lhokseumawe, 3(1), 235–239.

Tijaniyah, & Sabda Alam Arzenda. (2022). Rancang Bangun Prototype Alat Pengusir Tikus Dengan Pemanfaatan Gelombang Ultrasonik Berbasis Internet Of Things. Jurnal JEETech, 3(2), 57–63.

Hilal, A., & Manan, S. (2015). Pemanfaatan Motor Servo Sebagai Penggerak Cctv Untuk Melihat Alat-Alat Monitor Dan Kondisi Pasien Di Ruang Icu. Gema Teknologi, 17(2), 95–99.

Imran, A., & Rasul, M. (2020). Pengembangan Tempat Sampah Pintar Menggunakan ESP32 . Jurnal Media Elektrik, 17(2), 2721–9100.

Iqbal, M., & Rahayu, A. U. (2022). Alat Pengusir Hama Tikus Sawah Berbasis Arduino Uno Dan Gelombang Ultrasonik. Journal of Energy and Electrical Engineering (Jeee), 4(1), 1–5.

Ivakdalam, L. M. (2016). POPULASI DAN HABITAT TIKUS RUMAH (Rattus rattus diardii). Jurnal Agroforestri, 11(1), 37–43.

Kashif. (2023). ESP32 Pinout Reference – A Complete Guide. https://linuxhint.com/ESP32 -pinout-reference/

Kurniawan, H. (2020). Sensor gerak PIR. https://www.elektronikahendry.com/2021/01/arduino-part-23-sensor-gerak-pir-sensor.html

Kusumah, H., & Pradana, R. A. (2019). Penerapan Trainer Interfacing Mikrokontroler Dan Internet of Things Berbasis ESP32 Pada Mata Kuliah Interfacing. Journal CERITA, 5(2), 120–134.

Laksmana, I., Jingga, T. Z., Febrina, W., Khomaruddin, A. N., Putri, E. E., Nazli, R., Novita, R., & Amrizal. (2016). Teknologi Internet of Things (IoT) dan Hidroponik. Goresan Pena.

M, A., Febryan, A., Andriani, & Rahmania. (2023). Rancang Bangun Sistem Keamanan Rumah Berbasis Telegram Menggunakan ESP 32 Cam. VERTEX ELEKTRO-Jurnal Teknik Elektro UNIMUH, 15(1), 64–71.

Pambagyo, N. A. A., Eriyandi, & Suharto, T. I. (2018). Rancangan Sistem Kontrol Motor Servo Untuk Penentuan Sudut Antenna Menggunakan Handphone. Seminar Nasional Inovasi Teknologi Penerbangan (SNITP) Tahun 2018, September, 1–5.

Santos, R. (2023). ESP32 -CAM AI-Thinker Pinout Guide: GPIOs Usage Explained.

Saragih, R. K. P., Martini, & Tarwatjo, U. (2019). Jenis dan Kepadatan TIkus di “X” Panti Asuhan Kota Semarang. Jurnal Kesehatan Masyarakat, 7(1), 260–270.

Setyawan, D. Y., Nurfiana, Syahputri, R., & Nurjoko. (2022). Internet of Things ESP8266 ESP32 Web Server. Yogyakarta.

Thowil Afif, M., & Ayu Putri Pratiwi, I. (2015). Analisis Perbandingan Baterai Lithium-Ion, Lithium-Polymer, Lead Acid dan Nickel-Metal Hydride pada Penggunaan Mobil Listrik - Review. Jurnal Rekayasa Mesin, 6(2), 95–99.

Author Biographies

Zakia Lubis, Department Physics, Faculty Of Science And Technology, North Sumatra State Islamic University Medan, Indonesia

Mulkan Iskandar Nasution, Department Physics, Faculty Of Science And Technology, North Sumatra State Islamic University

Nazaruddin Nasution, Department Physics, Faculty Of Science And Technology, North Sumatra State Islamic University

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Copyright (c) 2024 Zakia Lubis, Mulkan Iskandar Nasution, Nazaruddin Nasution

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