Overspeed Detection Using Arduino Uno-based IR Infrared Sensor
DOI:
https://doi.org/10.22373/crc.v7i2.16409Keywords:
Speed, Displacement, Infrared Sensor, Arduino UnoAbstract
The goal of this project is to measure the speed of an object as it passes through the sensor being utilized. The tool that will be developed as a result of this project has already been designed in software simulation to ensure that it will work as intended. This device uses two infrared sensors as input signals to be processed in accordance with orders.I will be connected to an Arduino Uno through a middle whiteboard as a communication hub between various parts. The parameter used in this tool is the movement of the object going through the infrared sensor because that is what is measured when an object goes through the sensor in this tool. The input data will be processed and then shown on the programmed I2C 16x2 LCD to show the output signal that results from processing the input signal. Making this tool will allow users to minimize unintended incidents and control their speed while driving.References
Bisták, P. (2019). Arduino support for personalized learning of control theory basics. IFAC-PapersOnLine, 52(27), 217-221.
Chaudry, A. M. (2020). Using Arduino Uno microcontroller to create interest in physics. The Physics Teacher, 58(6), 418-421.
Indrasari, W., & Rustana, C. E. (2021, February). Development a practicum tools to measure the speed of the air using Arduino Uno Microcontroller. In Journal of Physics: Conference Series (Vol. 1816, No. 1, p. 012109). IOP Publishing.
Ikhsan, M., Fachri, Muhammad R. (2023). Power Control Study of Hydrokinetic Power Plants In Presence Of Wake Effect. Circuit: Jurnal Ilmiah Pendidikan Teknik Elektro, 7(1), p. 45-53
Irawan, Y., Yulisman, Y., Belarbi, N., & Josephine, M. M. (2021). Voice-Based Home Security and SMS Gateway Using Arduino Uno Microcontroller And Passive Infra Red Sensor. Journal of Applied Engineering and Technological Science (JAETS), 3(1), 19-25.
Jiang, C., Ren, H., Ye, X., Zhu, J., Zeng, H., Nan, Y., Sun, M., Ren, X., & Huo, H. (2022). Object detection from UAV thermal infrared images and videos using YOLO models. International Journal of Applied Earth Observation and Geoinformation, 112, 102912. https://doi.org/10.1016/J.JAG.2022.102912
Kurniawan, F., & Surahman, A. (2021). Sistem Keamanan Pada Perlintasan Kereta Api Mengunakan Sensor Infrared Berbasis Mikrokontroller Arduino UNO. Jurnal Teknologi Dan Sistem Tertanam, 2(1), 7-12.
Mark, H. (1993). AN ANALYSIS OF NEAR-INFRARED DATA TRANSFORMATIONS. Advances in Near-Infrared Measurements, 55–68. https://doi.org/10.1016/B978-1-4831-0092-0.50008-X
M. Moghavvemi and Lu Chin Seng, "Pyroelectric infrared sensor for intruder detection," 2004 IEEE Region 10 Conference TENCON 2004., 2004, pp. 656-659 Vol. 4, doi: 10.1109/TENCON.2004.1415018.
Nisa, C., Santosa, A., & Rahmawati, E. (2014). Perancangan instrumentasi pengukur waktu dan kecepatan mengunakan dt-sense infrared proximity detector untuk pembelajaran gerak lurus beraturan. Jurnal Penelitian Fisika dan Aplikasinya (JPFA), 4(1), 36-41.
Ngamakeur, K., Yongchareon, S., Yu, J., & Islam, S. (2022). Passive infrared sensor dataset and deep learning models for device-free indoor localization and tracking. Pervasive and Mobile Computing, 101721. https://doi.org/10.1016/J.PMCJ.2022.101721
Purnamasari, A. I., & Setiawan, A. (2019). Pengembangan Passive Infrared Sensor (PIR) HC-SR501 dengan Microcontrollers ESP32-CAM Berbasiskan Internet of Things (IoT) dan Smart Home sebagai Deteksi Gerak untuk Keamanan Perumahan. Prosiding SISFOTEK, 3(1), 148-154.
Rosyady Phisca A., Ikhsan, Zakky A., Feter, Muslih R. (2022). Prototipe Lampu Lalu Lintas Adaptif Berdasarkan Panjang Antrian Kendaraan Berbasis Arduino Uno. Circuit: Jurnal Ilmiah Pendidikan Teknik Elektro, 6(2), p.173-186
Sadikin, N., Sari, M., & Sanjaya, B. (2019, November). Smarthome using android smartphone, arduino uno microcontroller and relay module. In Journal of Physics: Conference Series (Vol. 1361, No. 1, p. 012035). IOP Publishing.
Toyib, R., Bustami, I., Abdullah, D., & Onsardi, O. (2019). Penggunaan Sensor Passive Infrared Receiver (PIR) Untuk Mendeteksi Gerak Berbasis Short Message Service Gateway. Pseudocode, 6(2), 114-124.
Verma, M., Kaler, R. S., & Singh, M. (2021). Sensitivity enhancement of Passive Infrared (PIR) sensor for motion detection. Optik, 244, 167503. https://doi.org/10.1016/J.IJLEO.2021.167503
Yang, Y., Yang, H., Liu, Z., Yuan, Y., & Guan, X. (2022). Fall detection system based on infrared array sensor and multi-dimensional feature fusion. Measurement, 192, 110870. https://doi.org/10.1016/J.MEASUREMENT.2022.110870
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