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Jurnal Teknologi Industri
Published by Universitas Dirgantara Marsekal Suryadarma
ISSN : 23022191     EISSN : 30309964     DOI : https://doi.org/10.35968/jti.v12i2
Core Subject : Science, Engineering,
Control & Systems Engineering Electrical & Electronics Engineering Energy Engineering Industrial & Manufacturing Engineering
Jurnal Teknologi Industri adalah jurnal yang fokus pada teknologi industri yang diterapkan dalam industri, pemerintah, dan universitas.
Arjuna Subject : Teknik (semua kategori) - Teknik Listrik dan Elektro
Articles 104 Documents
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Pengembangan Sistem Keamanan Portal Otomatis Cerdas melalui Identifikasi Pelat Nomor Kendaraan Berbasis OCR di Satrad 232 Hafid, Alif Riskiyadi; Dewanto, Yohannes
JURNAL TEKNOLOGI INDUSTRI Vol. 14 No. 1 (2025): Jurnal Teknologi Industri
Publisher : Universitas Dirgantara Marsekal Suryadarma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35968/jti.v14i1.1721

Abstract

The motorcycle parking system at Universitas Dirgantara Marsekal Suryadarma still operates manually without access control, vehicle recording, or integrated security mechanisms. This condition leads to congestion during peak hours, a high risk of vehicle theft, and low management efficiency. This study aims to design and evaluate a prototype of an automated parking gate system utilizing an Arduino-based microcontroller, RFID technology for vehicle identification, and ultrasonic/Vehicle Loop Detector (VLD) sensors for vehicle presence detection. A Research and Development (R&D) method was employed, involving field observation, technical measurements, and functional as well as performance testing of the system. The experimental results show that the system successfully validates registered RFID cards with a response time of less than 1 second, detects vehicles through the VLD sensor in less than 0.5 seconds, and opens the automatic barrier gate with an average speed of 2.30 seconds, meeting the device specifications. The safety auto-reverse feature also operated effectively with a reaction time of less than 1 second upon detecting obstacles during gate movement. All functional test scenarios achieved a 100% success rate in vehicle detection, access validation, and automated gate operation. This study demonstrates that integrating RFID and ultrasonic-based detection into a campus-scale parking system significantly enhances security, accelerates access processes, and provides a foundation for real-time vehicle data recording. The developed prototype can serve as a reference model for implementing a more efficient and secure smart-campus parking system.
Implementasi Algoritma RFID Pada Sistem Portal Parkir Otomatis Berbasis IoT Menggunakan Kartu Tanda Mahasiswa Di Universitas Dirgantara Marsekal Suryadarma Santoso, Imam; Sultoni, Raden Muh
JURNAL TEKNOLOGI INDUSTRI Vol. 14 No. 1 (2025): Jurnal Teknologi Industri
Publisher : Universitas Dirgantara Marsekal Suryadarma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35968/jti.v14i1.1722

Abstract

An efficient and secure parking system is essential in campus environments to improve convenience, administrative order, and vehicle security. This study implements an RFID-based algorithm in an IoT-based automatic parking gate system using Student ID Cards (Kartu Tanda Mahasiswa/KTM) as an authentication medium for motorcycle parking areas. The system consists of an RFID reader, ESP32 microcontroller, vehicle detection sensor, and an automated gate connected to a web-based database. When the card is tapped, the system verifies user data, controls the gate, and records parking data in real time. Test results show that the system achieves high accuracy in card validation and operates with a fast response time. Therefore, this system can enhance order, security, and efficiency in campus parking management and has the potential for further development through mobile application integration.
Prototipe Monitoring Controling Suhu dan Kelembaban Pada Kandang Ayam Petelur Berbasis Internet Of Things (IoT) Alfariz, M Adam; sumpena, Sumpena
JURNAL TEKNOLOGI INDUSTRI Vol. 14 No. 2 (2025): Jurnal Teknologi Industri
Publisher : Universitas Dirgantara Marsekal Suryadarma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35968/jti.v14i2.1730

Abstract

Controlling temperature and humidity is a critical aspect of layer chicken management, as uncontrolled environmental fluctuations can increase stress levels, reduce comfort, and negatively affect productivity. In practice, most farmers still rely on manual monitoring methods, which are unable to respond quickly to rapidly changing conditions. This study aims to develop and evaluate a prototype Internet of Things (IoT)-based monitoring and controlling system for regulating temperature and humidity in layer chicken cages using a NodeMCU ESP8266, a DHT22 sensor, and the Home Assistant platform for real-time monitoring and automated actuator control. Experimental testing was conducted in both open and closed environments to assess sensor accuracy and system effectiveness. Data were collected at 5-minute intervals. The results show that the DHT22 sensor demonstrates low error rates, with temperature errors ranging from 0–2.00% in closed environments and 0.32–0.64% in open environments, while humidity errors range from 0.26–1.17%. The automated control system effectively maintained cage temperature near the ideal range (±32°C), increasing temperature by 2.6–4.3°C under cooler conditions and decreasing temperature by 1.8°C during hotter periods. For humidity control, the system increased humidity levels by 1–3% as required These findings indicate that the developed IoT-based system provides fast response, stable performance, and high accuracy in maintaining environmental conditions within the optimal range for layer chickens, offering a more efficient solution compared with conventional methods. This study contributes a novel application of Home Assistant as a centralized control platform, which remains rarely explored in similar research.
RANCANG BANGUN PENGUKURAN SUHU DAN KELEMBABAN PADA PENYIRAMAN OTOMATIS UNTUK TANAMAN KACANG TANAH BERBASIS IOT Nugroho, Nicholas Herdiyanto; K N, Nurwijayanti
JURNAL TEKNOLOGI INDUSTRI Vol. 14 No. 2 (2025): Jurnal Teknologi Industri
Publisher : Universitas Dirgantara Marsekal Suryadarma

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.35968/jti.v14i2.1731

Abstract

Efficient, automated watering is crucial in modern agriculture. IoT (Internet of Things)-based automatic watering offers a solution to this challenge, particularly for peanut plants, which require precise and accurate watering. This research aims to design and test an IoT-based automatic watering system for peanut plants. The system is designed to optimize water use and increase efficiency in peanut cultivation. Identified problems include difficulty in determining the correct amount of water, water wastage due to manual watering, and inaccurate visual observations. This research focused on the design of the automatic water regulation system, the water pump control method, and the sensitivity of the soil moisture sensor in the system. Test results showed that the system performed well. The soil moisture sensor can detect water levels and automatically control the water pump. The water pump activates when soil moisture is below 30% and shuts off when it reaches 60%. There was no discrepancy between the sensor readings and manual calculations, demonstrating the system's accuracy.

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