Simulate Portable APILL Settings with Proteus to Increase System Reliability and Minimize Configuration Errors

Authors

  • I Wayan Yudi Martha Wiguna Politeknik Transportasi Darat Bali
  • A. A. Bagus Oka Khrisna Surya Politeknik Transportasi Darat Bali
  • Riz Rifai Oktavianus Sasue Politeknik Transportasi Darat Bali
  • Aswin Badarudin Atmajaya Politeknik Transportasi Darat Bali

DOI:

https://doi.org/10.52920/jttl.v4i2.210

Keywords:

APILL, controlling system, proteus pro, simulation

Abstract

APILL Portable is one of the traffic control systems that utilizes Arduino microcontroller technology to manage traffic lights, temperature sensors, and humidity. This system can be monitored in real-time, collecting traffic data that can be utilized to enhance traffic efficiency and safety. However, in its implementation, configuration errors often occur in APILL Portable settings, leading to system malfunction. Therefore, this research is conducted to optimize APILL Portable settings using Proteus with the aim of improving system reliability and minimizing configuration errors. In this study, an analysis of potential configuration errors in APILL Portable settings with Proteus will be performed through traffic simulation. Additionally, verification and validation methods will be developed to ensure that each configuration is precise and accurate.

References

Adani, A. C. E. H. A. N. M. N. (2020). Simulasi Desain Dan Analisis Alat Pendeteksi Suhu Menggunakan Proteus. Methomika: Jurnal Manajemen Informatika & Komputerisasi Akuntansi, Vol. 4 No. 1 (2020) : Methomika : Jurnal Manajemen Informatika & Komputersisasi Akuntansi, 27–31.

https://ejurnal.methodist.ac.id/index.php/methomika/article/view/196/169

Afrizal, M., Damayanti T.N. & Kanosri, A.M. (2015). Rancang Bangun Monitoring Sistem Generator Kereta Api Berbasis Mikrokontroler. E-Proceeding, 1, 2442 – 5826.

Ajjie, Septa. 2016. Buku Mudah Belajar Microcontroller dengan Arduino.

https://www.academia.edu/11472322/Buku_Mudah_Belajar_Mikrokontroller_dengan_Arduino Diakses 23 Maret 2022

Andrianto, H. & Darmawan, A. (2017). Arduino Belajar Cepat dan Pemrograman. Bandung: Informatika.

Eka Fidya, 2015, Rancang Bangun Pengaturan Lampu Lalu Lintas Berbasis Mikrokontroler Yang Dikendalikan Dengan Aplikasi Di Android Secara Nirkabel, Surabaya: Institut Teknologi Sepeluh November.

Peraturan Menteri Perhubungan Republik Indonesia Nomor 7 Tahun 2018 Tentang Rencana Induk Pengembangan Standar Kompetensi Kerja Nasional Indonesia Sektor Transportasi.

Sabaar, Sardi., dan Saripudin, 2022, Rancang Bangun Kontrol Lampu Lalu Lintas

Simpang Tiga Berbasis Arduino, Journal Informatics and Electronics Engineering, Vol .02, No.01, Indonesia.

UU Nomor 22 Tahun 2009 Tentang Lalu Lintas Dan Angkutan Jalan.

Wendri, I. W. S. I. K. W. N. (2016). Rancangan Rangkaian Simulasi Luxmeter Dengan Menggunakan Sensor Light Dependent Resistor (Ldr) Berbasis Mikrokontroler At89s52 Dengan Program Proteus 7.0. Buletin Fisika, Vol 17 No 2 (2016): Buletin Fisika, 1–7.

https://ojs.unud.ac.id/index.php/buletinfisika/article/view/31331/19136

Downloads

Published

2023-12-28

How to Cite

Wiguna, I. W. Y. M., Surya, A. A. B. O. K., Sasue, R. R. O. ., & Atmajaya, A. B. . (2023). Simulate Portable APILL Settings with Proteus to Increase System Reliability and Minimize Configuration Errors. Jurnal Teknologi Transportasi Dan Logistik, 4(2), 219-228. https://doi.org/10.52920/jttl.v4i2.210

Issue

Vol. 4 No. 2 (2023): Desember 2023

Section

Articles

License

Copyright (c) 2023 Jurnal Teknologi Transportasi dan Logistik

Creative Commons License

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