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All Journal Multidisciplinary Indonesian Center Journal Green Engineering: Journal of Engineering and Applied Science Sinergi Teknologi dan Masyarakat (SINTAK-MAS)
Hayadi Hamuda
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Religion Agriculture, Biological Sciences & Forestry Humanities Civil Engineering, Building, Construction & Architecture Computer Science & IT Earth & Planetary Sciences Education Electrical & Electronics Engineering Energy Engineering Other

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MODIFICATION OF TYRE MACHINE SYSTEM WITH MITSUBISHI PLC AUTOMATIC FOOT LENGTH GAUGE Hayadi Hamuda; Taufik Iqbal Miftaks; Lailatun Adzimah; Encik Yoega Renaldi; Muhammad Riza Syahputra; Novia Permata Atmadja
Multidisciplinary Indonesian Center Journal (MICJO) Vol. 3 No. 1 (2026): Vol. 3 No. 1 Edisi Januari 2026
Publisher : PT. Jurnal Center Indonesia Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.62567/micjo.v3i1.1919

Abstract

One of the steps in the tyre manufacturing process is the Tyre Building Machine. The tread is the last component to be fitted to the tyre carcass after all other components have been installed. When measuring the length of the pre-adjusted tread, errors or variations often occur in the measurements taken by the measuring device due to its lack of accuracy. This prevents operators from using the tyre tread and can result in a large amount of scrap and wasted time during the tyre manufacturing process. To overcome this problem, a redesigned tread length measurement system with a higher level of accuracy was created to minimise tread length fluctuations during tyre manufacturing. The results of the tread length measurement procedure using the ENC-1-1-24-N type rotary encoder can function according to the program created. This is validated by the tread length measurement data. The results of the HMI display design and the software created can operate according to the desired instructions. To change the tread length, the operator only needs to enter the number on the HMI panel.
Penerapan Sistem Kontrol pada Robot 4WD Menggunakan Modul HC-05 Muhammad Fauzi Firdaus; Hayadi Hamuda; Layli Ana
Sinergi Teknologi dan Masyarakat Vol. 1 No. 1 (2025): SINTAK-MAS Sinergi Teknologi dan Masyarakat
Publisher : Lembaga Penelitian dan Pengabdian Kepada Masyarakat (LPPM) Universitas Pamulang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32493/sintak-mas.v1i1.54235

Abstract

Perkembangan teknologi robotika semakin pesat, terutama dalam penerapan sistem kendali nirkabel. Penelitian ini membahas implementasi sistem robot 4WD (Four-Wheel Drive) yang dikendalikan menggunakan modul Bluetooth HC-05. Robot dirancang untuk dapat menerima perintah dari perangkat seluler melalui komunikasi Bluetooth, memungkinkan pengguna mengontrol pergerakannya secara real-time. Sistem ini menggunakan mikrokontroler sebagai pusat pemrosesan data dan motor DC untuk menggerakkan keempat roda secara independen. Pengujian dilakukan untuk mengevaluasi respons robot terhadap perintah yang diberikan, stabilitas koneksi Bluetooth, serta efektivitas kendali dalam berbagai kondisi lingkungan. Hasil penelitian menunjukkan bahwa sistem robot 4WD dengan Bluetooth HC-05 dapat beroperasi dengan baik, memiliki latensi rendah, serta mampu merespons perintah dengan akurasi yang tinggi. Implementasi sistem ini berpotensi digunakan dalam berbagai aplikasi, seperti eksplorasi, pemantauan, dan edukasi robotika.
Sensor Cerdas Peringatan Dini Kebakaran Berbasis IoT Firdaus, Muhammad Fauzi; Hayadi Hamuda; Salma Nofri Yanti
Sinergi Teknologi dan Masyarakat Vol. 1 No. 2 (2026): SINTAK-MAS Sinergi Teknologi dan Masyarakat
Publisher : Lembaga Penelitian dan Pengabdian Kepada Masyarakat (LPPM) Universitas Pamulang

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32493/sintak-mas.v1i2.56138

Abstract

Kebakaran merupakan salah satu jenis bencana yang dapat terjadi secara tiba-tiba dan berpotensi menimbulkan kerugian besar. Di lingkungan sekolah, seperti di MAN 1 Kabupaten Serang, potensi kebakaran dapat berasal dari berbagai sumber, termasuk instalasi listrik yang tidak memadai, penggunaan peralatan elektronik tanpa pengawasan, serta kelalaian manusia. Kondisi ini menyebabkan lambatnya proses evakuasi dan penanganan awal ketika kebakaran terjadi, terutama di luar jam operasional sekolah. Penelitian ini bertujuan untuk merancang dan mengimplementasikan sistem peringatan dini kebakaran berbasis Internet of Things (IoT) dengan menggunakan kombinasi sensor suhu, sensor asap, dan sensor gas (seperti MQ-2), yang dikendalikan oleh mikrokontroler ESP32 sebagai pusat kendali sekaligus modul Wi-Fi. Sistem ini dirancang untuk memberikan notifikasi secara real-time kepada petugas keamanan atau pihak manajemen sekolah melalui aplikasi Telegram, email, maupun dashboard berbasis web. Hasil pengujian menunjukkan bahwa sistem mampu mendeteksi potensi kebakaran secara akurat dengan waktu respon kurang dari 5 detik sejak sensor mendeteksi anomali. Penerapan sistem ini tidak hanya meningkatkan keamanan lingkungan sekolah secara signifikan, tetapi juga menjadi sarana edukasi praktis mengenai penerapan teknologi IoT dalam upaya mitigasi bencana, khususnya kebakaran.
Design of an Autonomous Solar Powered Smart Aquaculture Monitoring System for Energy Efficiency and Environmental Impact Reduction Lukman Medriavin Silalahi; Safrizal Safrizal; Erick Fernando; Hayadi Hamuda; Ribut Julianto; Yuanita Sinatrya
Green Engineering: International Journal of Engineering and Applied Science Vol. 2 No. 2 (2025): April : Green Engineering: International Journal of Engineering and Applied Sci
Publisher : International Forum of Researchers and Lecturers

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.70062/greenengineering.v2i2.286

Abstract

Aquaculture is a vital sector in global food production, providing essential protein sources. However, the industry faces significant challenges, including high energy consumption and environmental impact. The integration of renewable energy, particularly solar power, with automation and IoT systems offers a promising solution to enhance energy efficiency, sustainability, and productivity in aquaculture operations. This study aims to evaluate the effectiveness of solar powered autonomous systems in reducing energy usage, improving operational efficiency, and promoting environmental sustainability in aquaculture. Literature Review: Recent research has explored various technologies, such as Digital Twins (DTs) and Precision Fish Farming (PFF), which integrate IoT sensors for real time monitoring and optimization of fish farming operations. The combination of Artificial Intelligence (AI) and the Internet of Things (IoT), known as AIoT, has further advanced the industry by enabling automated decision making and predictive analytics. Solar power integration with IoT systems has been shown to significantly reduce operational costs, minimize carbon emissions, and enhance the sustainability of aquaculture practices. These advancements have the potential to address the challenges of energy consumption and environmental degradation in the industry. Materials and Method: This research utilizes a hybrid solar powered IoT system for aquaculture, integrating solar panels, IoT sensors, and automated control systems. The system monitors key water quality parameters, such as pH, dissolved oxygen, turbidity, and temperature, to maintain optimal conditions for aquatic life. Data is collected through IoT sensors and analyzed through a cloud-based platform. A pilot study is conducted on a small scale aquaculture farm to evaluate the system's performance, including energy consumption, water quality management, and fish health. Energy savings, operational efficiency, and environmental impact are assessed. Results and Discussion: The integration of solar powered IoT systems significantly reduced energy consumption compared to traditional systems, with a notable decrease in grid electricity reliance. The system successfully maintained optimal water quality conditions, enhancing fish health and growth. Solar powered systems proved reliable, even in regions with variable sunlight, and demonstrated improvements in operational efficiency through automation. The environmental benefits were evident, with a reduction in carbon emissions and lower operational costs. The study highlights the feasibility of solar powered IoT systems as a sustainable solution for modern aquaculture operations.
Co-Authors Erick Fernando Firdaus, Muhammad Fauzi Lailatun Adzimah Layli Ana Lukman Medriavin Silalahi Muhammad Fauzi Firdaus Muhammad Riza Syahputra Novia Permata Atmadja Renaldi, Encik Yoega Ribut Julianto Safrizal Safrizal Salma Nofri Yanti Taufik Iqbal Miftaks Yuanita Sinatrya