PERANCANGAN SISTEM PINTU OTOMATIS PADA WAREHOUSE BERBASIS ARDUINO DENGAN MENGGUNAKAN SENSOR IR
Keywords:
Arduino, Warehouse, AutomationAbstract
The research discusses the design of an automatic door system for warehouses based on Arduino microcontroller, utilizing infrared (IR) sensors. The aim of this study is to enhance operational efficiency in managing the flow of goods in and out of the warehouse. The system is designed to automatically open and close doors when detecting objects, reducing manual intervention and increasing security and access speed. The research methodology includes hardware experimentation and a prototyping approach, allowing for comprehensive testing and evaluation of the system. In the development phase, components such as IR sensors, servo motors, and Arduino microcontrollers are integrated to form an interconnected system. Test results indicate that the system operates effectively, accurately detects objects, and responds quickly. This automatic door not only boosts productivity but also helps maintain the environmental conditions of the warehouse, such as temperature and cleanliness. Therefore, this research significantly contributes to the application of automation technology in industry, particularly in warehouse management.
References
Christianti, Risa Farrid, and Didi Supriyadi. 2013. “4-Article Text-16-2-10-20160919.” 5(2): 17–23.
Desmira, Desmira, Didik Aribowo, Widhi Dwi Nugroho, and Sutarti Sutarti. 2020a. “Penerapan Sensor Passive Infrared (Pir) Pada Pintu Otomatis Di Pt Lg Electronic Indonesia.” PROSISKO: Jurnal Pengembangan Riset dan Observasi Sistem Komputer 7(1). doi:10.30656/prosisko.v7i1.2123.
Desmira, Desmira, Didik Aribowo, Widhi Dwi Nugroho, and Sutarti Sutarti. 2020b. “Penerapan Sensor Passive Infrared (Pir) Pada Pintu Otomatis Di Pt Lg Electronic Indonesia.” PROSISKO: Jurnal Pengembangan Riset dan Observasi Sistem Komputer 7(1). doi:10.30656/prosisko.v7i1.2123.
Effendy, Erwan, Elsa Adelia Siregar, Putri Chairina Fitri, and Ibnu Alif Syahbana Damanik. 2023. “Mengenal Sistem Informasi Manajemen Dakwah (Pengertian Sistem, Karakteristik Sistem).” Jurnal Pendidikan dan Konseling 5(2): 4343–49.
Elektro, Jurusan Teknik, and Politeknik Negeri Bali. “Perancangan Sistem Pengunci Pintu Otomatis Berbasis Id Card.”
Hamidin, Dini, Santoso, and Paujiah Mutianingsih. 2018. “Rancang Bangun Aplikasi Warehouse Berbasis Web Terintegrasi Dengan Qrcode.” Jurnal Teknik Informatika 10(3): 24–30.
Hutapea, Herwin. 2020. “Jkte Uta’45 Jakarta Sistem Kontrol Security Pada Gerbang, Lampu Dan Alarm Untuk Monitoring Warehouse Atau Pabrik Berbasis Arduino Uno Dengan Visualisasi Labview.” Ejournal Kajian Teknik Elektro 5(1): 51–63.
Kurniawan, Fikri, and Ade Surahman. 2021. “Sistem Keamanan Pada Perlintasan Kereta Api Mengunakan Sensor Infrared Berbasis Mikrokontroller Arduino Uno.” Jurnal Teknologi dan Sistem Tertanam 2(1): 7. doi:10.33365/jtst.v2i1.976.
Maulana Ilham, Muhammad, Muhammad Khairil Ihsan, Septian Yofinaldi, and Paduloh. 2024. 2 DESIGN USING RFID SENSOR BASED ON ARDUINO UNO.
Paduloh, P., H. Fatahillah, M. A. Ramadhan, R. Muhendra, M. Widyantoro, and Sumanto. 2022. “Designing of Temperature Control for Agitator Machine Using Internet of Thing.” In IOP Conference Series: Earth and Environmental Science, Institute of Physics. doi:10.1088/1755-1315/1063/1/012053.
Paduloh, Paduloh. 2023. “Monitoring Viscosity of Polymer Products on the Reactor Tank Using IoT-Based NodeMCU.” Jurnal Teknik Industri 25(1): 53–64. doi:10.9744/jti.25.1.53-64.
Ridarmin, Fauzansyah, Elisawati, and Prasetyo Eko. 2019. “Prototype Robot Line Follower Arduino Uno.” Jurnal Informatika, Manajemen dan Komputer 11(2): 17–23.
Sarmidi, and Irfan Taopik Rohmat. 2019. “Jurnal Manajemen Dan Teknik.” Jumantaka 03(01): 81–90.
Setiawan, David, Masnur P H, Fachrul Aziz, and Fuad Hamdi. 2022. “Desain Dan Analisis Pintu Otomatis Menggunakan Sensor Ultrasonic Berbasis Arduino Uno.” Jurnal Karya Ilmiah Multidisiplin (JURKIM) 2(1).
