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All Journal Jurnal Al Bayan: Jurnal Jurusan Pendidikan Bahasa Arab JETT (Jurnal Elektro dan Telekomunikasi Terapan) BERDIKARI : Jurnal Inovasi dan Penerapan Ipteks Techne : Jurnal Ilmiah Elektroteknika INTEK: Informatika dan Teknologi Informasi PHILOSOPHICA Jurnal Bahasa, Sastra, dan Budaya International Journal of Engineering, Technology and Natural Sciences (IJETS) Hijai - Journal on Arabic Language and Literature EL-MAQALAH: Journal of Arabic Language Teaching and Linguistics An-Nahdah Al-\'Arabiyah Fidelity : Jurnal Teknik Elektro Medika Trada Kapas: Kumpulan Artikel Pengabdian Masyarakat SENAPAS Indonesian Journal of Library and Information Science (IJLIS) Ulil Albab Cermin Dunia Kedokteran Jurnal Ilmu Kedokteran dan Kesehatan Indonesia el-Nizami : Jurnal Manajemen Pendidikan
Zulkhairi
Universitas Nahdlatul Ulama Yogyakarta
Religion Arts Humanities Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Economics, Econometrics & Finance Education Electrical & Electronics Engineering Energy Engineering Environmental Science Health Professions Industrial & Manufacturing Engineering Languange, Linguistic, Communication & Media Library & Information Science Public Health Social Sciences Other

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Journal : Medika Trada

 1 
DIGITAL E-DASHBOARD UNTUK RUANG STERILISASI: MENINGKATKAN SISTEM PEMANTAUAN DAN PENGENDALIAN KESEHATAN Haris Kuspranoto, Abdul; Zulkhairi; Alfatih, Muhammad Fa’iz
MEDIKA TRADA : Jurnal Teknik Elektomedik Polbitrada Vol 5 No 1 (2024): MEDIKA TRADA (JTEMP) Vol 5 No 1 (2024)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v5i1.54

Abstract

Effective sterilization is crucial in healthcare settings to prevent healthcare-associated infections (HAIs) and ensure patient safety. Traditional methods of monitoring sterilization environments often involve manual checks and lack real-time data, leading to potential inefficiencies and risks. This paper presents the development and implementation of a Digital E Dashboard designed to enhance the monitoring and control of sterilization rooms. The system integrates an ESP32 microcontroller with various sensors to continuously monitor critical parameters such as temperature, humidity, and UV light intensity. The ESP32 microcontroller serves as the core component, collecting real-time sensor data and transmitting it to a cloud server for storage and further analysis. A web-based user interface provides an intuitive dashboard for healthcare staff, offering real-time visualization of sterilization conditions, historical data analysis, and customizable alert settings. Over an eight-week testing period, the system demonstrated high reliability and accuracy, maintaining optimal sterilization conditions and providing timely alerts for any deviations. Implementing the Digital E Dashboard resulted in significant improvements in workflow efficiency and sterilization process reliability. The system's ability to provide real-time data and automated alerts reduced the need for manual monitoring and allowed for prompt corrective actions, minimizing the risk of HAIs. The results, summarized in a detailed table, showed that the average temperature was consistently maintained within the optimal range of 60-80°C, humidity levels were kept between 30-50%, and UV light intensity was monitored effectively with minimal deviations. Feedback from healthcare staff indicated that the dashboard was user-friendly and significantly enhanced their ability to monitor and control the sterilization environment effectively. While the system proved successful, challenges such as sensor calibration, network connectivity, and user training were encountered. Future developments will focus on integrating additional sensors, enhancing network resilience, and incorporating advanced data analytics for predictive insights. The Digital E Dashboard represents a significant step forward in leveraging modern technology to improve sterilization practices in healthcare settings, ultimately contributing to better patient outcomes and safety.
SISTEM KENDALI ONLINE BERBASIS IOT UNTUK MANIFOLD TABUNG OKSIGEN DENGAN PEMANTAUAN REAL-TIME DAN INTEGRASI ALARM Haris Kuspranoto, Abdul; Zulkhairi; Mardhiyyah, Rodhiyah
MEDIKA TRADA : Jurnal Teknik Elektomedik Polbitrada Vol 6 No 1 (2025): MEDIKA TRADA (JTEMP) Vol 6 No 1 (2025)
Publisher : LPPM POLBITRADA

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.59485/jtemp.v6i1.118

Abstract

Accurate This research develops an Internet of Things (IoT)-based online control system for oxygen cylinder manifolds in medical facilities. This system utilizes pressure sensors, ESP32 modules, and cloud platforms to monitor oxygen pressure in real-time. For example, the pressure sensor used can accurately measure the oxygen pressure in the cylinder and transfer the data to the ESP32 module for processing. Then, the data is sent via Wi-Fi network to a web dashboard and mobile application. For example, medical personnel can easily monitor oxygen pressure from their smartphones, even when they are not in the same room as the oxygen cylinder. In addition, this system is equipped with an automatic alarm mechanism via the Notification App if an anomaly occurs such as a decrease in pressure or leakage. For example, if the oxygen pressure in the cylinder drops below a safe limit, the Notification App will automatically alert medical personnel to take immediate action. The test results showed a response time of less than 4 seconds and a sensor accuracy rate of ±2%. With fast response time and high accuracy, the system can provide timely and accurate information to medical personnel. The system offers an economical and scalable solution to improve the efficiency and safety of oxygen gas distribution in hospitals. In addition, the implementation of this system can reduce operational costs in manual monitoring of oxygen cylinders, saving time and resources. By adopting IoT technology in oxygen management in medical facilities, hospitals can improve the quality of patient care and ensure sufficient oxygen availability consistently.
Co-Authors Abdul Haris Kuspranoto Abdulloh Badruzzaman Adam Sekti Aji Adelia Octora Pristisahida Aditya Wahyu Pratama Ahmad Syaifudin Akhmad Fakhurrozi Akmal Fajri Alfatih, Muhammad Fa’iz Ali Habibie, Raihan Ghifari Amanda Putri Aulia Anshar Zulhelmi Anugrah K Pamosoaji Ardian Bisri Ayu Safitri Rezeuki Azwir Azwir Badat Alauddin Bayu Ari Pratama Bayu Megaprastio Bledug Kusuma Bledug Kusuma P Diyon Saputro Djoko Budiyanto Setyohadi Fadmi Rina Fahmi Sofyan Ilham Unggara Irwan Novianto Jafar, Abzari Joang Ipmawati Laksana, Feri Febria Lilis Kurniasari Machfud, Achmad Agim maghfirah, rahil Malik Khidir Maulidatun Rahmi Mochamad Syamsiro Muhamad Nasruddin Manaf Muhammad Aflah Muhammad Yasir Muhar, Adi Muradi Nadya Isnaini Nisaul Kamila Noriska, Zacky Aqsha Nur Azmi Ainul Bashir Nur Azmi Ainur Bashir Nurasiah Nuryadi, Satyo Restiadi Bayu Taruno Rico Setiono Bayu Saputra Rifqi Syarif Nasrulloh Rio Ardiansyah Rodhiyah Mardhiyyah Rodhiyah Mardhiyyah Ruslan Septian Rico Hernawan Syarifuddin Ulif Simproni Wibowo, Hendri Hananta Wahyu Yana Hendriana Zulhelmi Zulhelmi, Anshar