Pengembangan Sistem Pendeteksi Kebocoran LPG Menggunakan Infrastruktur Instant Messaging Berbasis Internet of Things

Authors

  • Moch Kholil Akademi Komunitas Negeri Putra Sang Fajar Blitar
  • Ismanto Ismanto Akademi Komunitas Negeri Putra Sang Fajar Blitar
  • Rafika Akhsani Akademi Komunitas Negeri Putra Sang Fajar Blitar

DOI:

https://doi.org/10.21111/fij.v7i2.6509

Keywords:

IoT, telegram, LPG, ppm

Abstract

AbstrakPerkembangan teknologi yang semakin pesat seiring dengan pekerjaan manusia yang semakin banyak, menjadikan peran teknologi sebagai upaya optimalisasi dalam membantu pekerjaaan manusia sangat dibutuhkan. Salah satu tren teknologi yang menarik dan berkembang adalah teknologi Internet of Things atau biasa disingkat dengan IoT. Pemanfaatan Internet of Things juga sangat membantu dalam sistem pemantauan jarak jauh. Sebagai salah satu bentuk pemanfaatannya adalah sistem pendeteksi jarak jauh terhadap kebocoran Liquified Petroleum Gas (LPG) pada dapur sebuah rumah tangga, restoran maupun industri sehingga pemilik bisa melakukan pencegahan dini apabila terjadi sebuah kebocoran di dalam ruangan dan mampu memberikan peringatan dini kebocoran LPG saat ditinggal bepergian. Sistem dikembangkan melalui 4 tahapan, mulai dari pengumpulan data, perancangan perangkat keras, penulisan kode program dan uji coba sistem. Penelitian ini bertujuan menghasilkan sebuah alat pendeteksi kebocoran LPG berbasis IoT, dimana alat ini mampu mendeteksi serta mengirimkan pesan peringatan dini saat terjadi kebocoran LPG baik melalui pesan telegram maupun buzzer yang terpasang di perangkat. Dengan mengacu pada standarisasi yang dikeluarkan oleh Badan Standardisasi Nasional tentang Nilai Ambang Batas zat kimia di udara tempat kerja, sistem telah bekerja dengan baik dengan mampu memberikan peringatan kebocoran LPG saat Nilai Ambang Batas (NAB) zat kimia mencapai 1000 bds/ppm.Kata kunci: IoT, telegram, LPG, ppm Abstract[Development Of LPG Leak Detection System Using Instant Messaging Infrastructure Based On Internet Of Things]Developments of technology along with human work are growing, making the role of technology as an optimization effort in helping human work needed.  One of the technologies that are developing is the Internet of Things or commonly abbreviated as IoT. Utilization of the Internet of Things is also very helpful in remote monitoring systems. One form of utilization is a remote detection system for Liquefied Petroleum Gas (LPG) leaks in the kitchen of a household, restaurant, or industry so that owners can take early prevention in the event of a leak in the room and are able to provide early warning of LPG leaks when left traveling. The system is developed through four stages, starting from data collection, hardware design, writing program code, and system testing. This study aims to produce an IoT-based LPG leak detector, which a tool that is able to detect and send an early warning message when an LPG leak occurs either through a telegram message or a buzzer installed on the device. By referring to the standard issued by the National Standardization Agency regarding the Threshold Value of chemicals in the workplace air, the system has worked well by being able to provide an LPG leak warning when the Threshold Value of chemical substances reaches 1000 ppm.. Keywords: IoT; telegram, LPG; ppm

References

[1] Henderson-Sellers, Brian & Ralyte, Jolita. (2010). Situational Method Engineering: State-of-the-Art Review. J. UCS. 16. 424-478.[2] Burange, A. W., & Misalkar, H. D. (2015). Review of Internet of Things in Development of Smart Cities with Data Management & Privacy.[3] Keoh, S. L., Kumar, S., & Tschofenig, H. (2014). Securing the Internet of Things: A Standardization Perspective. IEEE Internet of Things Journal, 1(3), 1–1. http://doi.org/10.1109/JIoT.2014.2323395.[4] Abdul-Qawy, Antar & Magesh, E & Tadisetty, Srinivasulu. (2015). The Internet of Things (IoT): An Overview. 5. 71-82.[5] Tukkoji, C., & a N, S. K. (2020). LPG GAS LEAKAGE DETECTION USING IOT. International Journal of Engineering Applied Sciences and Technology, 04, 603–609. https://doi.org/10.33564/IJEAST.2020.v04i12.108.[6] Tabung Gas Bocor Dapat Sebabkan Keracunan! Ini yang Harus Dilakukan. (n.d.). Retrieved October 17, 2022, from https://hellosehat.com/sehat/informasi-kesehatan/tabung-gas-bocor/.[7] [BSN]. Badan Standarisasi Nasional. 2005. Nilai Ambang Batas (NAB) Zat Kimia di Udara Tempat Kerja. SNI 19-0232-2005.[8] Bán, H., Gerasimov, V., & Molnar, A. (2020). Development of an IoT monitoring system based on the WEMOS D1 module.[9] Grove - Gas Sensor(MQ2) - Seeed Wiki. (n.d.). Retrieved October 17, 2022, from https://wiki.seeedstudio.com/Grove-Gas_Sensor-MQ2/.[10] R. K. Kodali, T. Devi B. and S. C. Rajanarayanan, "IOT Based Automatic LPG Gas Booking And Leakage Detection System," 2019 11th International Conference on Advanced Computing (ICoAC), 2019, pp. 338-341, doi: 10.1109/ICoAC48765.2019.246863.[11] R. Hosur, A. Rati, P. Dalawai, R. Gornal and R. Patil, "A Survey on Automatic Detection of LPG Gas Leakage," 2018 International Conference on Smart Systems and Inventive Technology (ICSSIT), 2018, pp. 266-269, doi: 10.1109/ICSSIT.2018.8748349.[12] J. C. de Oliveira, D. H. Santos and M. P. Neto, "Chatting with Arduino platform through Telegram Bot," 2016 IEEE International Symposium on Consumer Electronics (ISCE), 2016, pp. 131-132, doi: 10.1109/ISCE.2016.7797406.[13] V. Singh, R. Anand, D. Anand and V. Nijhawan, "Home Environment Monitoring System with an Alert," 2021 International Conference on Industrial Electronics Research and Applications (ICIERA), 2021, pp. 1-5, doi: 10.1109/ICIERA53202.2021.9726745.[14] R. K. Kodali and A. Sahu, "An IoT based weather information prototype using WeMos," 2016 2nd International Conference on Contemporary Computing and Informatics (IC3I), 2016, pp. 612-616, doi: 10.1109/IC3I.2016.7918036.[15] Kalunga, Joseph & Tembo, Simon & Phiri, Jackson. (2022). Incorporating Environmental Protection Requirement in Industrial IoT Access Control Security Using Arduino Technology MQ2 and DHT11 Sensor Networks. International Journal of Advances in Scientific Research and Engineering. 08. 10.31695/IJASRE.2022.8.4.9.

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Submitted

2021-08-06

Accepted

2022-10-31

Published

2024-02-13

Issue

Section

Articles