RANCANG BANGUN SISTEM PENGONTROLAN INTENSITAS CAHAYA PADA AYAM BROILER DALAM MASA BROODING MENGGUNAKAN LOGIKA FUZZY
Abstract
Brooding is a period after hatching of eggs which aims to provide a comfortable environment for chicks to support optimal growth. Newly hatched chicks are not yet able to regulate their body temperature optimally. For this reason, it is necessary to use lights so that the temperature of the cage remains comfortable. Controlling light intensity is generally not maximized because the light produced is only bright and dark. This study aims to design a light control system using fuzzy logic with a range of values between light and dark. In this study, a prototype was made that utilized fuzzy logic using an Arduino mega microcontroller and a dht11 sensor to detect temperature and humidity with an incandescent lamp output. The brightness of the light is regulated by a dimmer driven by a servo motor. Fans are used to lower the temperature. Research shows that the prototype can control the light intensity according to the temperature and humidity conditions in the cage. The prototype used five chicks for 14 days, where it was found that the chicks could develop well with increased body weight, growth of feathers on the wings and tail, and good appetite, and no death occurred.
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References
Suhaeni, Heni," Petunjuk Praktis Beternak Ayam Broiler", nuansa cendekia, Ban-dung, 2017.
Fatmaningsih, Rani, " Performa Ayam Pedaging Pada Sistem Brooding Kon-vensional Dan Thermos" Universitas Lampung, Bandar Lampung, 2016,
Rasyaf, Muhammad, " Panduan Beternak Ayam Pedanging", Penebar Swadaya, Ja-karta, 2008.
Hazami, S., Ing. S. Hardienata, Iqbal Suri-ansyah, Model Pengatur Suhu Dan
Kelembaban Kandang Ayam Broiler Menggunakan Mikrokontroler AT-Mega328 Dan Sensor DHT11, Tugas Akhir, Unpublished, Universitas Pakuan, Bogor, 2016.
Annisa, Ulfa, "Rancang Bangun Sistem Pemeliharaan Ternak Ayam Broiler pada Kandang Tertutup berbasis Mikro-kontroler", Tugas akhir, Universitas Islam Negeri Alauddin, Makassar, 2018.
Rasyaf, Muhammad, " Beternak Ayam Pedaging", Penerbit Penebar Swadaya, Jakarta Timur, 2002.
Tamalluddin, Ferry, "Ayam Broiler", Pen-erbit Penebar Swadaya, Jakarta Timur, 2016.
Cahyono, Bambang,"Cara Meningkatkan Budidaya Ayam Ras Pedaging (Broiler), Penerbit Pustaka Nusatama, Yogyakarta, 1995.
Nasution, Hefi, " Implementasi Logika Fuz-zy Pada Sistem Kecerdasan Buatan", Universitas Tanjungpura, Pontianak, 2012.
Kusumadewi, S, Hari P, "Aplikasi Logika Fuzzy Untuk Pendukung Keputusan", Penerbit Graha Ilmu, Yogyakarta, 2004.
Pamungkas, Catur, " Aplikasi Fuzzy Log-ic Memprediksi Intensitas Cahaya Lampu Pada Kandang Ternak Ayam Broiler", Tugas akhir, Universitas Katolik Widya Mandira, Kupang, 2018.
Ridhamuttaqin, Aji, "Rancang Bangun Mo-del Sistem Pemberi Pakan Ayam Otomatis Berbasis Fuzzy Logic Control", Universitas Lampung, Bandar Lampung, 2013.
Prawira, Bobby, " Efisiensi Pencahayaan Ruangan Perkuliahan Dengan Logika Fuz-zy", Tugas akhir, Universitas Sam Ratu-langi, Manado, 2018.
Widiarsi, Neswin Indara, "Program Linear Fuzzy Dengan Koefisien Teknis Bilangan Fuzzy Menggunakan Metode Fuzzy Deci-sive Set". Thesis, Universitas Negeri Yog-yakarta, 2016.
https://doi.org/10.24198/jmi.v12i2.11915
Ronaldo, Laxmi Rani Rebekah, "Proto-type Pendeteksi Dini Kebakaran Menggunakan Fuzzy Logic Dengan Sms Sebagai Media Informasi". Universitas 17 Agustus 1945 Surabaya, Surabaya, 2018.
https://doi.org/10.30996/konv.v14i2.2775
Saptadi, Hendra, "Perbandingan Akurasi Pengukuran Suhu dan Kelembaban Anta-ra Sensor DHT11 dan DHT22 Studi Komparatif pada Platform ATMEL AVR dan Arduino", Sekolah Tinggi Teknologi Telematika Telkom, Purwokerto, 2014.
https://doi.org/10.20895/infotel.v6i2.73
Saleh, Muhamad, "Rancang Bangun Sis-tem Keamanan Rumah Menggunakan Re-lay", Universitas Suryadarma, Jakarta, 2017.
Damanik, Martin, "Sistem Bantu Penga-wa-san Larangan Merokok Dengan De-teksi Sen-sor Asap ", Tugas Akhir, Uni-versitas Kristen Satya Wacana, Salatiga, 2017.
Arifin, Jauhari, Zulita, Leni, Herma-wansyah, "Perancangan Murottal Otoma-tis Menggu-nakan Mikrokontroller Ar-duino Mega 25-60", Universitas Dehasen Bengkulu, Beng-kulu, 2016.
https://doi.org/10.37676/jmi.v12i1.276
Sirait, Mariana, " Data Logger Penguku-ran Intensitas Cahaya Matahari Berbasis Iot Menggunakan Arduino Mega",Tugas Akhir, Universitas Sumatera Utara,Sumatera Utara, 2020.
Sandra, Ritha, "Prototype Sistem Monitor-ing Temperatur Menggunakan Arduino Uno R3 Dengan Komunikasi Wireless" Universitas Mercu Buana, Jakarta, 2017.
TowerPro. MG996R High Torque Metal Gear Dual Ball Bearing Servo Data Sheet. Taiwan, 2018.
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