Nama Lengkap : Indrawati Yudha Asmara, Ph.D.

E-mail : [email protected]

Bidang Keahlian : Produksi Ternak Unggas

Prodi S2 Calon Mahasiswa: S2 Ilmu Peternakan

Prodi S3 Calon Mahasiswa:

Judul Penelitian yang Ditawarkan:

PERANCANGAN SISTEM KONTROL VENTILASI OTOMATIS PADA KANDANG CLOSED HOUSE AYAM BROILER DENGAN INTEGRASI CLIMATE CONTROL DAN ARTIFICIAL INTELLIGENCE BERBASIS INTERNET OF THINGS

DESIGN OF AN AUTOMATIC VENTILATION CONTROL SYSTEM IN CLOSED HOUSE FOR BROILER CHICKENS WITH INTEGRATION OF CLIMATE CONTROL AND ARTIFICIAL INTELLIGENCE BASED ON THE INTERNET OF THINGS

 

Abstrak:

Industri peternakan ayam broiler modern banyak menggunakan kandang closed house untuk memaksimalkan produksi dan efisiensi sekaligus memberikan zona thermoneutral yang nyaman bagi ayam broiler dengan kontrol ventilasi mencakup suhu, kelembaban, kecepatan angin, serta gas oksigen (O2), gas karbondioksida (CO2), dan gas amonia (NH3) dalam kandang. Peternak masih menghadapi kesulitan dalam mengoptimalkan kondisi lingkungan kandang secara konsisten sehingga menyebabkan fluktuasi mikroklimat yang berdampak buruk bagi ayam. Sistem ventilasi saat ini menggunakan Climate Control dan IoT namun masih memfokuskan pada pengendalian suhu dan kelembaban dan mengabaikan aspek lain. Integrasi AI dan IoT memiliki potensi untuk mengoptimalkan pengelolaan lingkungan kandang secara real-time berdasarkan data sekaligus dapat memprediksi keputusan dan evaluasi yang harus diambil dalam pemeliharaan selanjutnya. Penelitian akan mencakup tahapan penelitian eksploratif dan eksperimental. Penelitian eksploratif terdiri atas tahap perancangan sistem secara keseluruhan, pemilihan dan integrasi sensor-sensor yang sesuai serta pengembangan algoritma AI. Penelitian eksperimental terdiri atas tahapan, implementasi platform IoT, serta uji coba dan evaluasi kinerja sistem pada skala laboratorium dan lapangan.

Abstract:

The modern broiler chicken farming industry uses closed houses to maximize production and efficiency while providing a comfortable thermoneutral zone for broiler chickens with ventilation controls including temperature, humidity, wind speed, as well as oxygen gas (O2), carbon dioxide gas (CO2), and ammonia (NH3). Farmers still face difficulties in optimizing the environmental conditions of the house consistently, causing microclimatic fluctuations that decrease the chicken’s performance. Current ventilation systems use Climate Control and IoT but still focus on controlling temperature and humidity and disregarding other aspects. The integration of AI and IoT has the potential to optimize the management of the house environment in real-time based on data while being able to predict decisions and evaluations that must be taken in subsequent maintenance. The research will include exploratory and experimental research stages. Exploratory research consists of the overall system design stage, selection, and integration of appropriate sensors, and development of AI algorithms. Experimental research consists of stages, implementing the IoT platform, as well as testing and evaluating system performance on laboratory and field scales.