IMPLEMENTATION OF THE INTERNET OF THINGS TO TURN ON THE ENGINE OF THE HONDA SUPRA

Authors

  • Eko Sudaryanto Universitas Wijayakusuma Purwokerto
  • Tri Watiningsih Universitas Wijayakusuma Purwokerto
  • Rizki Afif Safarli Universitas Wijayakusuma Purwokerto
  • Isra' Nuur Darmawan Universitas Wijayakusuma Purwokerto

DOI:

https://doi.org/10.58436/jeepa.v3i2.1668

Keywords:

Motorcycle, Wifi, Smartphone

Abstract

Motorcycle vehicle theft has become an everyday problem that needs to be solved, one way to prevent theft is to use intelligent security system technology. Residential and office intelligent security systems, also known as home intelligent security systems, are used for property storage and banking, industry, communications and transportation. This research aims to develop a tool to start a Honda Supra The research method was carried out in the stages of component design, test system design, analysis and conclusions. From the results and discussions reviewed in the previous chapter, it can be concluded that this system device has been able to fulfill its function of starting the Honda Supra It is shown that the signal sensor on the Wemos D1 Mini device used is quite accurate because it has an average error value of 0.77%. Then the time needed for the tool to respond to user commands via the application is approximately 2 seconds out of ten data captures, so the tool's response is quite fast. Operation with an Android smartphone that has the blynk application installed and is easy for daily use and supported by equipment that is easy to obtain. Wemos D1 Mini can be used as an engine start control by assembling several components so that it can be the main control for starting the system on a Honda Supra X 125 Motorcycle.

References

Purwanto, K., Khristanto Hariadi, T., & Yusvin Muhtar, M.Microcontroller-based RFID, GSM and GPS for Motorcycle Security System. In IJACSA) International Journal of Advanced Computer Science and Applications (Vol. 10, Issue 3), 2019.

A. Millah, “Penanggulangan Kejahatan Di Masa Pandemi Covid-19 (Dalam Perspektif Kriminologi Dan Viktimologi),” J. Komun. Huk., vol. 6, no. 2, hal. 2356–4164, 2020, [Daring]. Tersedia pada: https://mediaindonesia.com/read.

I. PALAM, “Pemetaan Tindak Pidana Pencuriankendaraan Bermotorberbasis Spasial Di Kota Bandar Lampungtahun 2018,” J. FKIP Unila, 2018.

Hidayanti, F., Ahmed, A., Must, A. S., Rahmah, F., & Wiryawan, A. Design of Motorcycle Security System with Fingerprint Sensor using Arduino Uno Microcontroller Cite this paper Mult imodal Biomet ric Syst em Iris and Fingerprint Recognit ion Based on Fusion Technique Design of Motorcycle Security System with Fingerprint Sensor using Arduino Uno Microcontroller. International Journal of Advanced Science and Technology, 29(5), 4374–4391, 2020.

Palchaudhuri, A., & Manimegalai, C. T. Security system of an electric motorcycle based on Gsm & Zigbee communication. International Journal of Engineering and Technology(UAE), 7(2.8 Special Issue 8), 361–364, 2018. https://doi.org/10.14419/ijet.v7i2.8.10463.

Reynaldi, R. N., & Pramudita, R. (2019). Sistem Kontrol Sepeda Motor Menggunakan Arduino Dan Android (Vol. 4, Issue 1).

A. Putra, “Purwarupa Sistem Keamanan Sepeda Motor Menggunakan Algoritma Rsa, Diffie-Hellman Dan Aes Berbasis Mikrokontroler Arduino Uno,” Univ. Pendidik. Indones., 2019.

M. M. Thoyyib, “Sistem Keamanan Sepeda Motor Dari Perampasan Menggunakan Sms dan GPS Berbasis Arduino Nano,” J. Chem. Inf. Model., hal. 1–92, 2017.

Durani, H., Sheth, M., Vaghasia, M., & Kotech, S. Smart Automated Home Application using IoT with Blynk App. Proceedings of the International Conference on Inventive Communication and Computational Technologies, ICICCT 2018, 393–397, 2018. https://doi.org/10.1109/ICICCT.2018.8473224

Samsugi, S., & Kastutara, D. ARDUINO DAN MODUL WIFI ESP8266 SEBAGAI MEDIA KENDALI JARAK JAUH DENGAN ANTARMUKA BERBASIS ANDROID. In Jurnal TEKNOINFO (Vol. 12, Issue 1), 2018.

Sitanayah, L., Angdresey, A., & Utama, J. W. A Low Cost Vehicle Counting System Based On The Internet of Things. EPI International Journal of Engineering, 4(1), 14–20, 2021. https://doi.org/10.25042/epi-ije.022021.03.

Yoppy, Harry Arjadi, R., Setyaningsih, E., Wibowo, P., & Sudrajat, M. I. Performance Evaluation of ESP8266 Mesh Networks. Journal of Physics: Conference Series, 1230(1), 2019. https://doi.org/10.1088/1742-6596/1230/1/012023.

E. Rahmawati, M. F. Riyandi, S. H. Prasetyo, M. Farhan, F. Qiram, dan N. Nanang, “Perancangan Alat Sistem Keamanan Kendaraan Motor Menggunakan RFID Berbasis Arduino Uno,” J. Inov. dan Sains Tek. Elektro, vol. 1, no. 2, hal. 47–51, 2020.

T. Hidayat, Sistem monitoring dan pengaman motor menggunakan remote cerdas berbasis android dengan gps google api. Jakarta, 2019.

R. N. Reynaldi dan R. Pramudita, “Sistem Kontrol Sepeda Motor Menggunakan Arduino Dan Android,” vol. 4, no. 1, hal. 23–34, 2019.

Hakiki, M. Irsyad, Ucuk Darusalam, and Novi Dian Nathasia. "Konfigurasi Arduino IDE Untuk Monitoring Pendeteksi Suhu dan Kelembapan Pada Ruang Data Center Menggunakan Sensor DHT11." Jurnal Media Informatika Budidarma 4.1 (2020): 150-156.

Todica, M. "Controlling Arduino board with smartphone and Blynk via internet." (2016).

Giyantara, Andhika, et al. "Analisis Rangkaian Full Wave Rectifier dengan Filter Kapasitor, Pembagi Tegangan, Buffer dan Penguat Differensial pada Sensor Arus." SPECTA Journal of Technology 3.2 (2019): 1-9.

Suriana, I. Wayan, and I. Wayan Sugarayasa. "Rancang Bangun Sistem Kontrol Pembangkit Hybrid (PLN-Solar Cell) Berbasis Wemos D1 Mini Esp8266." Jurnal Riset Teknologi dan Inovasi Pendidikan (Jartika) 5.2 (2022): 93-104.

Chaerisma, Haris. "PROTOTYPE SISTEM MONITORING DAN PEMBERI PAKAN IKAN HIAS BERBASIS WEMOS D1 MINI DENGAN KENDALI TELEGRAM." OKTAL: Jurnal Ilmu Komputer dan Sains 2.01 (2023): 101-112.

Purba, Sukarman, et al. "LED Control System Using Arduino Wemos D1 R1 Based on Web Server Communication Via Internet of Things (IoT)." Formosa Journal of Science and Technology 2.6 (2023): 1397-1408.

Suryono, Wiwid, Achmad Setiyo Prabowo, and Abdul Mu’ti Sazali. "Monitoring and controlling electricity consumption using Wemos D1 Mini and smartphone." IOP Conference Series: Materials Science and Engineering. Vol. 909. No. 1. IOP Publishing, 2020.

Molen, Andre. Sistem Pengendali Mesin Air Otomatis Menggunakan Mikrokontroler Arduino. Diss. Universitas Islam Riau, 2020.

Bai, Yongjiang, et al. "High efficiency hybrid multi-stage adaptor with AC and DC input capability." 2011 IEEE Energy Conversion Congress and Exposition. IEEE, 2011.

Handi, Handi, Hurriyatul Fitriyah, and Gembong Edhi Setyawan. "Sistem Pemantauan Menggunakan Blynk dan Pengendalian Penyiraman Tanaman Jamur Dengan Metode Logika Fuzzy." Jurnal Pengembangan Teknologi Informasi Dan Ilmu Komputer 3.4 (2019): 3258-3265.

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Published

2023-11-30

How to Cite

[1]
E. Sudaryanto, T. Watiningsih, R. Afif Safarli, and I. N. Darmawan, “IMPLEMENTATION OF THE INTERNET OF THINGS TO TURN ON THE ENGINE OF THE HONDA SUPRA”, jeepa, vol. 3, no. 2, pp. 203–209, Nov. 2023.

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