Implementasi Algoritma C 4.5 Untuk Pendeteksi Banjir Berbasis IOT
Keywords:
Nodemcu ESP8266, Water Level, Turbidity, Flood Detector, AndroidAbstract
Indonesia is a country that has a tropical climate. People should be more aware of flood disasters. As a result of the flood disaster, many losses were caused and even many people lost their lives. Losses occur because residents are less prepared for disasters that will occur. Therefore, an effort is needed to minimize the loss of life and losses that occur by designing a flood detection system to monitor the water level. This system is based on IoT (Internet of Things) which refers to a network that connects various physical devices with different protocols. This flood detection system uses a water level sensor to detect the water level, a turbidity sensor to detect water turbidity, the NodeMCU ESP8266 to read data and send it via the internet and a buzzer that functions to make a sound when the sensor detects water and has the potential to flood. The system will work automatically when the water touches the sensor by sending flood detection status information. This system will later be implemented for the community in various flood-prone areas.
References
Roger S. Pressman, 2002. Pengertian Rancang Bangun (Buku Satu), ANDI Yogyakarta.
Siregar, J. 2010. Perancangan Dan Pembuatan Sistem Parkir Otomatis Menggunakan Koin Berbasis Mirokontroler AT89S52 Secara Software. http://repository.usu.ac.id/handle/123456789/20821. Diakses pada 22 Juni 2021.
Onur Cinar. (2012). Android apps with eclips. New York: Springer Pengertian Definisi Android. (2017, januari 22).
Satyaputra dan Aritonang. (2014). Begining android programming with ADT Budle. jakarta: Elek Media Komputindo,
Kamagi, D. H., & Hansun, S. (2014). Implementasi Data Mining dengan Algoritma C4.5 untuk Memprediksi Tingkat Kelulusan Mahasiswa. Ultimatics Vol VI, No.1.
Amri, K. (2014). Sistem Informasi Geografis Berbasis Web Untuk Klasifikasi Kemunculan Titik Api Di Provinsi Riau Menggunakan Pohon Keputusan C4.5.
Safaat H, Nazrudin, 2015. Rancang Bangun Aplikasi Multiplatform, Informatika, Bandung
Riny Sulistyowati, (2015). Sistem Pendeteksi Banjir Berbasis Sensor Ultrasonik Dan Mikrokontroler Dengan Media Komunikasi SMS Gateway.
Widiasih,W., Murnawan,H .(2016). Rancang Bangun Unit Pengendali Ketinggian Air Dalam Tandon.
Jeanny Silvie Ratu, Safitri Juanita, Windarto (2017). Otomasi Sistem Rumah Anti Banjir dengan Notifikasi SMS
Mendrofa, Y. (2019). Implementasi Algoritma C4.5 Untuk Memprediksi Tingkat Kerusakan Akibat Banjir. Jurnal Pelita Informatika, Volume 7, Nomor 4, April 2019.
Faiqurahman, M. (2020). Sistem Iot Untuk Deteksi Bencana Banjir Menggunakan Algoritma C4.5 Dan Modul Komunikasi ESP 8266. Seminar Nasional Teknologi dan Rekayasa (SENTRA) .
Wisnu Adi Wicaksono, L. M. (2020). Rancang Bangun Alat Pendeteksi Banjir. Jurnal Teknologi Elektro. ISSN: 2086‐9479
sumadiyasa, m. (2021). Sistem Pendeteksi Banjir Berbasis Sensor Ultrasonik Hc-Sr04 Dan Modul. Juni 2021. Vol. 5, No.1 | 120 e-ISSN: 2549-2950.
