SECURITY CONTROL SYSTEM ON GATE, LIGHT AND ALARM FOR WAREHOUSE MONITORING OR ARDUINO UNO BASED FACTORY WITH LABVIEW VISUALIZATION
Abstract
In the industrial world, time and cost efficiency is very important in achieving productivity. Almost all production has used an automatic system, but non-production equipment in this industrial environment is still controlled manually, one of which is equipment owned by security. Gate operations, activating street lights in the warehouse or factory area, and monitoring security are done manually. Making a control system with an Arduino Uno microcontroller in the form of LDR, PIR, and Limit Switch sensors input with output in the form of street lights, alarms, indicator lights and automatic gates with visual displays in the form of animation on PC / HMI with Labview software The LDR sensor is used to check the light, where when it is bright the lights will turn off and when it is dark the lights will turn on. The PIR sensor is used to check for human movement. The detected movement produces an output in the form of an alarm on the buzzer and an indicator light that will light up, and the gate will be closed automatically. Limit Switch functions as a limit for opening and closing the gate. With this control system, it is hoped that security can control and monitor every activity in only one place so that security activities can be more optimal and efficient.
Keywords
Full Text:
PDFReferences
[a] https://id.wikipedia.org/wiki/Sistem_kendali Diakses pada tanggal 12 Mei 2020.
[b] https://tulisanterkini.com/artikel/artikel-ilmiah/8399-pengertian-efisiensi-waktu-dan-biaya.html Diakses pada tanggal 12 Mei 2020.
[c] Basri Albar1, Arisandy Ambarita2, Adelina Ibrahim3, Sistem Keamanan Ruangan Laboratorium Politeknik Sains dan Teknologi Wiratama Maluku Utara Menggunakan Sensor PIR (Passive Infra Red) dengan Metode Pengembangan Prototyping Berbasis Mikrokontroller ATmega328, Jurnal Ilmiah ILKOMINFO, Volume 2 No 2 Juli 2019, ISSN : 2621-4970
[d] Yogie El Anwar1, Noer Soedjarwanto2, Ageng Sadnowo Repelianto3, Prototype Penggerak Pintu Pagar Otomatis Berbasis Arduino Uno ATMEGA 328P dengan Sensor Sidik Jari, Jurnal Rekayasa dan Teknologi Elektro, Volume 9 No 1 Juli 2015
[e] Abdul Hakim, Fandi Christianto Hulu, RANCANG BANGUN ALAT PENGONTROL SUHU DAN LAMPU OTOMATIS MENGGUNAKAN ARDUINO UNO R3 SEBAGAI SISTEM PENGENDALI, Jurnal Hasil Penelitian Bidang Fisika, Vol 3, No 1 (2015) e-issn: 2407 – 747x, p-issn 2338 – 1981
[f] Abdul Kadir (2015). Buku Pintar Pemrograman Arduino. Yogyakarta: MediaKom
[g] Datasheet HC-SR501 PIR Motion Detector. https://www.mpja.com/. Diunduh pada tanggal 1 Desember 2019.
[h]http://eprints.polsri.ac.id/1806/3/BAB%20II.pdf Diunduh pada tanggal 14 Mei 2020.
[i] Datasheet Modul LDR. http://www.sunrom.com. Diunduh pada tanggal 1 Desember 2019.
[j] Datasheet Limitswitch. http://www.elektronikadasar.web.id. Diunduh pada tanggal 24 Desember 2019. Dian Artanto (2012).
[k] E-Book Labview. https://www.academia.edu. Diunduh pada tanggal 20 Desember 2019.
[l] NI-VISA User Manual. http://www.ni.com. Diunduh pada tanggal 23 Desember 2019.
[m] Interaksi Arduino dan LabVIEW. Jakarta: Elex Media Komputindo
[n]https://kangobing.wordpress.com/2013/07/07/421/ Diunduh pada tanggal 24 Februari 2020.
[o]https://elib.unikom.ac.id/files/disk1/395/jbptunikompp-gdl-rickisubag-19706-6-babiir-v.pdf Diunduh pada tanggal 24 Februari 2020.
DOI: https://doi.org/10.52447/jkte.v5i1.4332
Refbacks
- There are currently no refbacks.