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All Journal Jurnal Sistem Cerdas Universal Journal of Science and Technology
Wibowo, Irwan Setyo
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Automotive Engineering Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Education Electrical & Electronics Engineering Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering

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Sistem Monitoring Ruang Server Berbasis IoT Menggunakan Komunikasi Lora Ebyte E32 Wibowo, Irwan Setyo; Adit, Muhammad Aditiya Firdaus; Laksana, Teguh Teuja
Jurnal Sistem Cerdas Vol. 6 No. 3 (2023)
Publisher : APIC

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.37396/jsc.v6i3.331

Abstract

The critical issue in server room management, emphasizing the potential damage caused by elevated temperatures to hardware within the server room environment. The proposed solution involves leveraging Internet of Things (IoT) technology, specifically utilizing LoRa (Long Range) communication, to monitor key environmental parameters such as temperature, humidity, and fire incidents. The sensors chosen for this purpose are the DHT11 for measuring temperature and humidity, and a Fire sensor for detecting potential fire hazards. The research focuses on three main aspects: testing the transmission distance, evaluating data delivery, and integrating sensor data into the Blynk dashboard, which serves as the central monitoring system. The testing process involves assessing the performance of the system under different conditions. Firstly, the transmission distance is tested, presumably to determine the maximum distance over which the sensors can reliably communicate with the monitoring system. Secondly, data delivery is examined, likely to ensure the timely and accurate transfer of information from the sensors to the monitoring dashboard. Lastly, the research involves the integration of sensor data into the Blynk dashboard, indicating a comprehensive approach to visualizing and interpreting the collected data. The results of the testing reveal that the optimal performance is achieved when the transmission distance is below 600 meters. This distance is achieved using a 5dBi antenna, connected to the Blynk dashboard, which is identified as the preferred monitoring system. The findings suggest that this IoT-based solution utilizing LoRa communication and specific sensors effectively addresses the challenges associated with server room management, providing a reliable and real-time monitoring mechanism to mitigate potential hardware damage due to environmental factors.
SISTEM MONITORING PROTOTYPE WEATHER STATION DENGAN INTERNET OF THINGS Putra, Mochamad Widie Aditya; Firmansyah, Eliyana; Wibowo, Irwan Setyo
UJoST- Universal Journal of Science and Technology Vol. 1 No. 2 (2022): September 2022
Publisher : Faculty of Science and Technology University of Pramita Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11111/ujost.v1i2.177

Abstract

Penelitian ini bertujuan untuk merancang sebuah sistem monitoring Prototype Weather Station dengan memanfaatkan internet of things. Penerapan sistem monitoring ini digunakan dalam lingkup masyarakat sehari-hari. Metode yang digunakan dalam penelitian ini menggunakan dua metode penelitian, yaitu penelitian Research and Development. Tahap pada RND meliputi: 1) Analisis kebutuhan sistem, 2) Perancangan, 3) Implementasi, 4) Pengujian. Teknik analisis menggunakan perangkat lunak yang berupa Adafruit IO sebagai bagian dari internet of things. Hasil penelitian menunjukkan kemampuan sistem monitoring Prototype Weather Station dengan menggunakan internet of things lebih mudah dan akurat untuk memantau data cuaca secara realtime.
RANCANG BANGUN PROTOTIPE SISTEM KENDALI PINTU AIR IRIGASI OTOMATIS BERBASIS ESP8266 Yuwono, Danang Aryo; Wibowo, Irwan Setyo; Firmansyah, Eliyana; Anggraini, Dewi
UJoST- Universal Journal of Science and Technology Vol. 3 No. 1 (2024): March 2024
Publisher : Faculty of Science and Technology University of Pramita Indonesia

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11111/ujost.v3i1.178

Abstract

Pada umumnya pintu air irigasi yang ditempatkan pada Daerah Irigasi merupakan sarana penunjang aktifitas pertanian yang menerapkan sistem saluran primer-sekunder-tersier. Pintu air irigasi terbuat dari lempengan besi berukuran tertentu yang dioperasikan dengan cara diangkat atau diputar. Cara ini telah menimbulkan persoalan ketidakpuasan layanan oleh petani. Penelitian ini telah mengembangkan pintu air irigasi secara otomatis berdasarkan dari sensor Ultrasonic. Sensor ini dapat mengukur ketinggian air yang nantinya dijadikan referensi untuk membuka atau menutup pintu air irigasi. Penelitian menggunakan metode perancangan yang meliputi interkoneksi sensor ultrasonic dan NodeMCU, pemrograman sistem kontrol, penempatan Motor DC pada pintu air irigasi, interkoneksi Motor DC ke sistem kontrol, interkoneksi Motor DC ke sistem kontrol aplikasi Blynk dan ujicoba. Hasil pengujian menunjukan bahwa pintu air irigasi bergerak membuka pada ketinggian 15cm dan menutup kembali jika ketinggian air sudah di ketinggian 5cm.
Co-Authors Adit, Muhammad Aditiya Firdaus Dewi Anggraini Eliyana Firmansyah Laksana, Teguh Teuja Putra, Mochamad Widie Aditya Yuwono, Danang Aryo