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All Journal Progresif: Jurnal Ilmiah Komputer Journal of Systems Engineering and Information Technology
Khoirul Anam
Universitas Mercu Buana
Computer Science & IT Control & Systems Engineering

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Monitoring System for Temperature and Humidity Sensors in the Production Room Using Node-Red as the Backend and Grafana as the Frontend Khoirul Anam; Difa Nur Rofi; Ruci Meiyanti
Journal of Systems Engineering and Information Technology (JOSEIT) Vol 2 No 2 (2023): September 2023
Publisher : Ikatan Ahli Informatika Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.29207/joseit.v2i2.5222

Abstract

The client from the TRIAS project is facing issues with a decrease in production quality or defective products. They require a monitoring system for temperature and humidity in the production area, providing real-time notifications in case of any anomalies in temperature and humidity. However, the project has a limited budget, which poses a challenge for the contractor in developing a monitoring system that tracks temperature and humidity changes using temperature and humidity sensors as the data source. It should also provide alarms if the temperature and humidity values exceed the standard values for the room. Additionally, the pricing offer should be adjusted using information technology. The research methodology used in this study includes qualitative methods such as observation, literature review, and interviews to gather data on the mentioned issues. The SWOT method is used to analyze business process problems, while the Waterfall method is employed for system development. Based on the research findings, the researcher concludes that this project requires cost reduction in material usage and also needs a data visualization application for the mentioned sensors. The visualization application system utilizes Grafana as the frontend, chosen for its high flexibility in processing. The temperature and humidity data obtained from the sensors will be recorded by Node-Red as the backend and synchronized on the server. The data stored on the server will be saved in a MySQL database. The data from the database will be synchronized with Grafana for processing and visualization, presenting the data in easily understandable graphical forms.
Production Room Temperature and Humidity Sensor Monitoring System Using Node-Red and Grafana (Sistem Monitoring Sensor Suhu dan Kelembaban Ruangan Produksi Menggunakan Node-Red dan Grafana) Khoirul Anam; Difa Nur Rofi; Ruci Meiyanti
Progresif: Jurnal Ilmiah Komputer Vol 20, No 1: Februari 2024
Publisher : STMIK Banjarbaru

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35889/progresif.v20i1.1406

Abstract

The clients of the TRIAS smart industry project are facing issues with a decline in the quality of their production output. They require a monitoring system capable of tracking temperature and humidity levels in the production area and providing real-time alarm notifications for both parameters. This poses a challenge for the contractors to develop a monitoring system for temperature and humidity changes using temperature and humidity sensors as the data source. The system should display the data and issue alerts while also reducing material costs. The research methodology used in this study includes qualitative methods, literature review, and the SDLC-Waterfall method. The research outcome is the development of a data visualization application for the sensors, which utilizes Grafana as the visualization tool. The temperature and humidity data collected by the sensors are recorded using Node-Red and synchronized to the server. This data is stored in a MySQL database within the server. The data from the database is then synchronized with Grafana to be processed and visualized in the form of easily understandable graphs, with the aim of reducing material costs.Keywords: Grafana; IoT; Monitoring; Node-Red; Temperature and Humidity AbstrakKlien dari project TRIAS smart industry memiliki permasalahan pada hasil produksi yang mengalami penurunan kualitas, mereka membutuhkan sistem monitoring yang bisa memantau Suhu dan Kelembaban pada ruangan produksi, dan memberikan alarm notifikasi suhu dan kelembaban pada ruangan produksi secara realtime. Hal ini menjadi tantangan bagi kontraktor untuk membuat sistem monitoring perubahan suhu dan kelembaban menggunakan alat sensor suhu dan kelembaban sebagai data yang akan ditampilkan dan memberikan peringatan dan melakukan pengurangan biaya pada material. Metode yang digunakan pada penelitian ini adalah metode kualitatif, studi literatur, dan metode SDLC-Waterfall. Hasil penelitian ini membuat sistem aplikasi visualisasi data dari sensor, aplikasi visualisasi tersebut menggunakan Grafana. Data didapat dari sensor suhu dan kelembaban dicatat oleh Node-Red dan disinkronisasi pada Server. Data yang berada di dalam Server, disimpan pada database Mysql. Data dari database, disinkronisasi dengan Grafana untuk diproses dan divisualisasikan untuk menampilkan data berbentuk grafik yang mudah dipahami dengan memangkas biaya material.Kata kunci: Grafana; IoT; Monitoring; Node-Red; Suhu dan Kelembaban.
Co-Authors Difa Nur Rofi Difa Nur Rofi Ruci Meiyanti