Prototype Peternakan Ayam Broiler Berbasis Internet Of Things
Abstract
The purpose of making an internet-based broiler chicken prototype system is the formation of a system that can regulate the temperature of the broiler chicken coop automatically by controlling the heating device and also the fan in the closed house-based broiler chicken coop. The other goal is a system that can control the water pump on broiler farms by turning it off automatically according to the condition of the tandom whether it is full or almost empty. In this study, researchers used a descriptive method.
This internet of things based broiler farm prototype uses a DHT22 sensor to get the temperature and humidity values and also uses an ultrasonic sensor to get the water level value in the broiler farm air tank. As well as using Nodemcu ESP32 as a data processor and also using firebase cloud as a database. Based on the test, the resulting system can run well with an error rate for Ultrasonic sensors of 0.02% after 6 tests, for DHT22(temperature) sensors of 2.36% after 5 times of testing, for DHT22(humidity) sensors of 7 times. ,55% after 5 times of testing
References
Darwis, Deviana (2018). “Memonitoring Suhu dan Kelembaban Ruangan berbasis WEB”. Parepare: Universitas Muhammadiyah Parepare.
Cahyono, Bambang (1995). “Cara Meningkatkan Budidaya Ayam Ras Pedaging (Broiler)”. Yogyakarta: Yayasan Pustaka Nusantama.
Saputra, E. H., & Rukmana, T. I. (2013). “Perancangan aplikasi untuk Sirkulasi Pakan Ternak Ayam Broiler Pada Peternakan Sumber Jaya Magelang”. Magelang: Jurnal Ilmiah DASI.
Arafat, M. K. (2016). Sistem Pengamanan Pintu Rumah berbasis Internet Of Things ( IoT ) Dengan ESP8266. Jurnal Ilmiah Fakultas Teknik “Technologia,” 7(4), 262–268.
Suprijatna, Edjeng, Umiyati Atmomarsono, and Ruhyat Kartasudjana (2005)"Ilmu dasar ternak unggas." Jakarta: Penebar Swadaya.
Efendi Y (2018). “Internet Of Things (Iot) Sistem Pengendalian Lampu Menggunakan Raspberry Pi Berbasis Mobile.” Vol. 4, No. (1), 19-26
R. P. Wijayanti, W. Busono, and R. Indrati (2011). “Effect Of House Temperature On Performance Of Broiler In Starter Period ”
Hakim, Budijanto, dan Widjanarko (2018). “Sistem Monitoring Penggunaan Air PDAM Pada Rumah Tangga Menggunakan Mikrokontroler NODEMCU Berbasis Smartphone ANDROID.” Volume 22 Nomer (2), Desember 2018, 9 – 18.
Kurniawan dan Nurraharjo (2018). “Sistem Monitoring Suhu Dengan Metode Wireless Real -Time.”
Komaludin Deden (2018). “Prototype Monitoring Suhu Tanaman Hidroponik Teknologi Iot (Internet Of Thing).” Vol 3 No (1), 2018
Pratama, Rizki Priya (2017). “Aplikasi Webserver Esp8266 Untuk Pengendali Peralatan Listrik.” Vol. 17, No. (2), Oktober 2017, 40 -44
Prayitno, Muttaqin, dan Syauqy (2017). “Sistem Monitoring Suhu, Kelembaban, Dan Pengendali Penyiraman Tanaman Hidroponik Menggunakan Blynk Android.” Vol. 1, No. (4), April 2017, hlm. 292 -297
Rebiyanto dan Rofii (2018). “Rancang Bangun Sistemkontrol Dan Monitoring Kelembaban Dan Temperature ruangan Pada Budidaya Jamur Tiram Berbasis Internet Of Things.”
Ardutech (2020). “Mengenal ESP32 Development Kit untuk IoT (Internet of Things)”. Diperoleh dari: https://www.ardutech.com/mengenal-esp32-development-kit-untuk-iot-internet-of-things. (diakses 31 Juli 2021).
Supegina dan Setiawan (2017). “Rancang Bangun Iot Temperature Controller Untuk Enclosure Bts Berbasis Microcontroller Wemos Dan Android.” Vol. 8 No. (2) Mei 2017 145 -150.
Turang, Daniel Alexander Octavianus (2015) “Pengembangan Sistem Ultrasonic Pengendalian Dan Penghematan Pemakaian Lampu Berbasis Mobile.”
Sandra (2019). “Mengukur Jarak berbasis ESP32 dan Sensor Ultrasonik (Platform ThingsBoard)”. Diperoleh dari : https://sandraaproject.blogspot.com/2019/08/mengukur-jarak-berbasis-esp32-dan.html (Diakses pada 31 Juli 2021).
Copyright (c) 2022 ahmad selao, Taufik hidayat
This work is licensed under a Creative Commons Attribution 4.0 International License.
1.png){kind=logo}
