Artikel Ilmiah : H1A019086 a.n. MOCHAMMAD ARDI WIBISONO
| NIM | H1A019086 |
|---|---|
| Namamhs | MOCHAMMAD ARDI WIBISONO |
| Judul Artikel | PERANCANGAN DAN ANALYSIS LORA UNTUK MONITORING SISTEM PENYEDIAAN AIR MINUM, MENGGUNAKAN ULTRASONIC DISTANCE SENSOR |
| Abstrak (Bhs. Indonesia) | Secara tradisional, proses pengolahan air dari sumber sungai (SPAM) dilakukan secara manual atau semiotomatis, yang memerlukan pengawasan dan penyesuaian terus-menerus oleh manusia untuk memastikan pengolahan dan distribusi air yang tepat[3]. Manusia memegang peranan penting dalam memantau berbagai tahapan pengolahan, sehingga proses ini seringkali kurang efisien dan lebih rentan terhadap kesalahan. Namun, di era modern, integrasi teknologi seperti PLC (Programmable Logic Controllers), SCADA (Supervisory Control and Data Acquisition), dan IoT (Internet of Things) telah membawa transformasi signifikan dalam operasi pengolahan air. PLC memungkinkan otomatisasi kontrol katup, pompa, dan dosis dengan tingkat presisi yang tinggi, sementara sistem SCADA menyediakan pemantauan dan kontrol secara real-time atas seluruh proses dari lokasi pusat. Walau begitu, komunikasi di lapangan masih banyak mengandalkan sistem GSM dan Protokol Modbus sebagai metode dasar komunikasi antar node ke PLC atau SCADA. Sistem ini berfungsi dengan baik pada lokasi yang padat penduduk dan tidak terlalu jauh dari sumber pasokan listrik. Namun, di lapangan, tantangan sering muncul, seperti kebutuhan untuk menghemat atau mengurangi komunikasi, yang membuat teknologi LoRa berperan penting untuk mengisi kekurangan sistem komunikasi radio dan GSM. Penerapan LoRa memiliki karakteristik yang mirip dengan radio, namun membutuhkan gateway dan repeater untuk meningkatkan jarak transmisi. Meskipun begitu, sistem LoRa merupakan versi yang lebih maju dari sistem komunikasi radio tradisional di mana komunikasi radio LoRa terembeded protokol modbus RS485 dan RS232 |
| Abtrak (Bhs. Inggris) | The LoRaWAN UG67 Gateway, with signal penetration capabilities of up to 3 km in urban areas and 15 km in rural areas, offers higher efficiency and reliability in communication systems. This gateway has high compatibility with standard LoRaWAN network sensors and servers, allowing for better integration into the drinking water supply system. This improvement results in better data collection and faster responsiveness to changes in water quality or system performance.During the trial phase, the placement of the gateway in relation to the nodes to be captured requires consideration of factors such as height and the location of the gateway installation. Differences in height and installation in high locations can significantly affect signal capture range.LoRaWAN devices such as the LoRaWAN EM500-UDL sensor from Milesight allow for high-accuracy monitoring of environmental parameters, including water levels. Meanwhile, the UC300 IoT Controller provides better management and automation capabilities through various I/O interfaces such as analog, digital, and serial ports. The UC300 IoT Controller functions to provide output to different sensors and actuators according to the needs of the system provided by the gateway.The transition from Modbus protocol communication such as RS485 and RS232 and GSM to LoRa technology represents significant technological advancement. LoRa, with its low power and long-range characteristics, not only retains Modbus protocol and GSM communication features but also works in tandem with transmitter and receiver amplifiers. The LoRa communication system is not a new communication system but rather a combination of radio and GSM technologies integrated into one board equipped with a signal amplification system. This allows the system to take on dual roles, both as a master and a slave, within the communication network.Thus, it can be concluded that the LoRa communication system offers a more efficient and reliable solution for drinking water treatment systems, combining the advantages of Modbus protocol and GSM technologies with enhanced signal amplification capabilities to ensure optimal data transmission and reception |
| Kata kunci | sistem penyediaan air minum (SPAM), Programmable Logic Controllers (PLC), Supervisory Control and Data Acquisition (SCADA), Internet of Things (IoT), sensor LoRaWAN, Milesight |
| Pembimbing 1 | Ir Priswanto, S.T., M.Eng., |
| Pembimbing 2 | Arief Wisnu Wardhana, B.Eng (Hons). |
| Pembimbing 3 | |
| Tahun | 2024 |
| Jumlah Halaman | 119 |
| Tgl. Entri | 2024-11-15 08:51:57.342479 |