eprintid: 52249
rev_number: 26
eprint_status: archive
userid: 23004
dir: disk0/00/05/22/49
datestamp: 2025-07-21 07:18:07
lastmod: 2025-07-21 07:18:07
status_changed: 2025-07-21 07:18:07
type: thesis
metadata_visibility: show
contact_email: amabelrachell11@gmail.com
creators_name: Tambun, Rachel Amabel
creators_id: 3332200018
contributors_type: http://www.loc.gov/loc.terms/relators/THS
contributors_name: Fahrizal, Rian
corp_creators: Fakultas Teknik Universitas Sultan Ageng Tirtayasa
title: RANCANG BANGUN SISTEM MONITORING PADA KANDANG BURUNG PUYUH PETELUR SECARA OTOMATIS BERBASIS INTERNET OF THINGS
ispublished: pub
subjects: T1
subjects: TA
subjects: TK
divisions: Elektro
full_text_status: restricted
keywords: Mikrokontroler ESP8266, DHT22, Max4466, Burung Puyuh, IoT
abstract: Burung puyuh memerlukan kondisi lingkungan stabil agar kondisi kandang tetap ideal. Oleh karena itu, dirancang sistem monitoring otomatis kandang burung puyuh petelur berbasis Internet Of Things (IoT). Sistem monitoring dibuat berfokus dengan tiga parameter pengukuran yakni suhu, kelembapan, dan tingkat kebisingan kandang. Sensor DHT22 mengukur suhu dan kelembapan sedangkan sensor Max4466 mendeteksi tingkat kebisingan kandang. Pengukuran dilakukan pada pagi, siang, sore, malam, dan dini hari. Data pengukuran dikirimkan secara online dengan jaringan internet ke firebase dan Google Sheet sehingga dapat dipantau realtime melalui website. Kondisi ideal kandang burung puyuh ketika suhu sebesar 24 s.d. 30℃, kelembapan 70 s.d. 80% dan kebisingan kurang dari 60 dB. Sensor DHT22 yang digunakan memiliki error sebesar 3,24% dan sensor Max4466 sebesar 1%. Terakhir, hasil pengukuran divisualisasikan dalam sebuah grafik garis. Penggunaan IoT diharapkan mampu meningkatkan kondisi kandang yang ideal bagi burung puyuh sehingga perkembangbiakan burung puyuh semakin optimal. 
	

Kata Kunci: Mikrokontroler ESP8266, DHT22, Max4466, Burung Puyuh, IoT
date: 2025-07-16
date_type: published
pages: 92
institution: Fakultas Teknik Universitas Sultan Ageng Tirtayasa
department: Teknik Elektro
thesis_type: sarjana
thesis_name: sarjana
referencetext: DAFTAR PUSTAKA
[1]	Cut Bidara Panita Umar, “Penyuluhan Tentang Pentingnya Peranan Protein Dan Asam Amino Bagi Tubuh Di Desa Negeri Lima,” J. Pengabdi. Ilmu Kesehat., vol. 1, no. 3, pp. 52–56, 2023, doi: 10.55606/jpikes.v1i3.1412.
[2]	H. H. Outcomes and E. Impact, “Human Health Outcomes and Environmental Impact,” Nutrients, vol. 14, p. 5115, 2022.
[3]	I. Fahrurrozi, Wahyono, Y. Sari, A. K. Sari, I. Usuman, and B. Ariyadi, “Integrating random forest model and internet of things-based sensor for smart poultry farm monitoring system,” Indones. J. Electr. Eng. Comput. Sci., vol. 33, no. 2, pp. 1283–1292, 2024, doi: 10.11591/ijeecs.v33.i2.pp1283-1292.
[4]	F. A. Soelistianto, A. Indrianto, M. A. Anshori, and M. N. R. Adriansyah, “IoT Based Poultry Cage Quality Monitoring System,” vol. 02, no. 09, pp. 1780–1786, 2024.
[5]	M. International et al., “Borneo Engineering & Advanced IoT Multiple Temperature Control Quail Egg Hatcher,” vol. 3, no. September, pp. 82–87, 2024.
[6]	T. T. Septian, K. Sari, and F. Setiawan, “Pemantauan Dan Pengendalian Lingkungan Ayam Peliharaan Dengan Implementasi Kandang Ayam Pintar Berbasis Iot,” vol. 4, pp. 49–59, 2025.
[7]	R. Abou-Elkhair et al., “Effect of a diet supplemented with the moringa oleifera seed powder on the performance, egg quality, and gene expression in japanese laying quail under heat-stress,” Animals, vol. 10, no. 5, pp. 1–12, 2020, doi: 10.3390/ani10050809.
[8]	M. A. Hossain, A. S. M. Mahbub, and S. A. Belal, “Housing and dietary effects on production performance, quality index, and chemical composition of Japanese quail eggs,” Vet. Anim. Sci., vol. 23, no. February, p. 100340, 2024, doi: 10.1016/j.vas.2024.100340.
[9]	M. K. Rosikin, L. Perdanasari, T. A. I. Azis, and N. Amalia, “Implementasi  
          Sistem Otomatisasi Monitoring Suhu, Kelembapan, dan Amonia pada Kandang Ayam Petelur Menggunakan Metode Fuzzy,” J. Teknol. Inf. dan Terap., vol. 10, no. 2, pp. 75–82, 2023, doi: 10.25047/jtit.v10i2.325.
[10]	N. A. A. S. Aa Zezen Zenal Abidin, “SISTEM MONITORING KANDANG BURUNG PUYUH BERBASIS INTERNET OF THINGS PADA PLATFORM NODE-RED MENGGUNAKAN METODE NAIVE BAYES,” J. Teknol. Inf. dan Komun., vol. 13, no. February, pp. 1–25, 2020.
[11]	F. Aryunita, N. Rasjid, and M. F. Mansyur, “Rancang Bangun Sistem Monitoring Keamanan Kandang Ayam Bloiler Menggunakan Esp32-Cam Berbasis Iot Dengan Aplikasi Android,” J. Inform. dan Tek. Elektro Terap., vol. 12, no. 1, 2024, doi: 10.23960/jitet.v12i1.3699.
[12]	I. G. N. A. W. Putra, A. Sukmaaji, and V. R. Hananto, “Pemanfaatan sensor proximity untuk memantau kesehatan reproduksi puyuh bagi peternak telur puyuh,” Techno.Com, vol. 22, no. 1, pp. 28–35, 2023, doi: 10.33633/tc.v22i1.7111.
[13]	K. A. Septiawan, A. N. Lisdawati, R. Mu, and M. Aminuddin, “Sistem Monitoring dan Kontrol Alat Penetas Telur Ayam Berbasis Internet of Things ( IoT ),” vol. 9, no. 2, pp. 556–563, 2025, doi: 10.36277/jteuniba.v9i2.1260.
[14]	A. Nahak, Y. P. . Kelen, B. Baso, and W. Sucipto, “Sistem Otomatisasi Pakan Minum dan Monitoring Kelembaban Udara berbasis Internet of Things (IoT),” bit-Tech, vol. 7, no. 1, pp. 1–9, 2024, doi: 10.32877/bt.v7i1.1226.
[15]	A. M. Kamarullah, Misswar Abd, Zulfan, Nazaruddin, “Kajian Distribusi Temperatur pada Inkubator Penetas Telur Puyuh,” Univ. Syiah Kuala, Indones. Jl. Teuku Nyak Arief, vol. 9, no. 2, pp. 132–139, 2023.
[16]	S. Time, “YAKIN TELUR,” vol. 9, no. 1, pp. 145–150, 2025.
[17]	M. D. Ananda, Y. Saragih, and R. S. Hadikusuma, “Utilization of Telemetry Systems in Quail Farming Using the Iot Concept,” J. Teknol., vol. 15, no. 2, pp. 217–224, 2023.
[18]	Peternak, “Kandang Burung Puyuh,” 2020. 
https://peternakrakyat.com/kandang-burung-puyuh/ (accessed Oct. 20, 2024).
[19]	C. M. Ncho, J. I. Berdos, V. Gupta, A. Rahman, K. T. Mekonnen, and A. Bakhsh, “Abiotic stressors in poultry production: A comprehensive review,” J. Anim. Physiol. Anim. Nutr. (Berl)., vol. 109, no. 1, pp. 30–50, 2025, doi: 10.1111/jpn.14032.
[20]	R. Adolph, “Puyuh,” pp. 1–23, 2021.
[21]	M. Datulangngan, L. J. Lambey, and K. M. Utara, “Pengaruh kepadatan ternak burung puyuh ( Coturnix coturnix japonica ) dalam kandang terhadap produktivitas telur,” vol. 44, no. 1, pp. 116–124, 2024.
[22]	E. A. Susilo and D. S. Panjalu, “Efektivitas Manajemen Kandang untuk Mendukung Optimalisai Produksi Telur pada Usaha Ternak Puyuh Petelur Panjalu,” Translitera  J. Kaji. Komun. dan Stud. Media, vol. 11, no. 2, pp. 33–38, 2022, doi: 10.35457/translitera.v11i2.2419.
[23]	A. Junaedi, M. D. M. Puspitasari, and M. Maulidina, “Pengaruh (Intensor) Induktor Heater Menggunakan Thermal Sensor Berbasis Mikrokontroler Arduino Nano Dalam Mengolah Logam,” Nusant. Eng., vol. 4, no. 2, pp. 169–175, 2021, doi: 10.29407/noe.v4i2.16754.
[24]	Pktparticle, “Computer Organization - Von Neumann architecture,” 2024. https://www.geeksforgeeks.org/computer-organization-von-neumann-architecture/?_x_tr_pto+=tc (accessed Oct. 21, 2024).
[25]	Pktparticle, “Harvard Architecture,” 2024. https://www-geeksforgeeks-org.translate.goog/harvard-architecture/?_x_tr_sl=en&_x_tr_tl=id&_x_tr_hl=id&_x_tr_pto=tc (accessed Oct. 21, 2024).
[26]	NN, “Basic Principle Of Sensors: Definition & Principle of Sensors,” 2024. https://testbook.com/electrical-engineering/basic-principle-of-sensors (accessed Nov. 01, 2024).
[27]	F. Nawazi, “DHT22 Digital Temperature and Humidity Sensor,” 2021. https://www.circuits-diy.com/dht22-digital-temperature-and-humidity-sensor/ (accessed Nov. 12, 2024).
[28]	F. Puspasari, T. P. Satya, U. Y. Oktiawati, I. Fahrurrozi, and H. Prisyanti, “Analisis Akurasi Sistem sensor DHT22 berbasis Arduino terhadap Thermohygrometer Standar,” J. Fis. dan Apl., vol. 16, no. 1, p. 40, 2020, doi: 10.12962/j24604682.v16i1.5776.
[29]	E. A. Prastyo, “Pengertian dan Penjelasan tentang Sensor Suara,” 2022. https://www.arduinoindonesia.id/2022/09/pengertian-dan-penjelasan-tentang_20.html (accessed Nov. 16, 2024).
[30]	M. Damirchi, “Interfacing MAX4466 Microphone Module with Arduino,” 2020. https://electropeak.com/learn/interfacing-max4466-microphone-module-with-arduino/ (accessed Nov. 16, 2024).
[31]	J. Joseph, “Interfacing MAX4466 Microphone Amplifier Module with Arduino,” 2024. https://circuitdigest.com/microcontroller-projects/interfacing-max4466-microphone-amplifier-module-with-arduino (accessed Nov. 16, 2024).
[32]	LastMinuteEngineers, “Interfacing MAX4466 Microphone Amplifier Module with Arduino,” 2024. https://lastminuteengineers.com/max4466-arduino-tutorial/ (accessed Nov. 16, 2024).
[33]	Admin, “Lampu Pijar,” 2024. https://www.griyasatria.co.id/lampu-pijar/ (accessed Nov. 16, 2024).
[34]	S. Liang, “Apa Itu Bola Lampu Pijar, dan Bagaimana Cara Kerjanya?,” 2024. https://vorlane.com/id/apa-itu-bola-lampu-pijar/ (accessed Nov. 16, 2024).
[35]	R. P. Sari, “Internet of Things (IoT): Pengertian, Cara Kerja dan Contohnya,” 2024. https://www.cloudcomputing.id/pengetahuan-dasar/iot-pengertian-contohnya (accessed Nov. 20, 2024).
[36]	L. Amelia, “Apa itu Internet of Things? Pengertian, Cara Kerja, dan Contohnya,” Linknet.Id, 2023. https://it.telkomuniversity.ac.id/internet-of-things-adalah/ (accessed Nov. 21, 2024).
[37]	L. Cloudeka, “Apa Itu Database? Apakah Penting Untuk Website?,” 2023. https://www.cloudeka.id/id/berita/web-dev/apa-itu-database/ (accessed Nov. 22, 2024).
[38]	I. Fahzirah et al., “PENGENALAN SISTEM DATABASE : KONSEP DASAR,” vol. 1, no. 4, pp. 673–678, 2024.
[39]	Y. Yusuf, “Apa Itu Website? Ini Pengertian Website dan Jenis-Jenisnya,” 2024. https://bif.telkomuniversity.ac.id/website-adalah/ (accessed Nov. 23, 2024).
[40]	Admin, “Firebase: Pengertian, Jenis, Fungsi, dan Cara Kerjanya,” 2022. https://badr.co.id/firebase-adalah/ (accessed Nov. 23, 2024).
[41]	NN, “Firebase,” 2021. https://revou.co/kosakata/firebase (accessed Nov. 23, 2024).
[42]	C. Gupta, “Absolute Error, Relative Error, and Percentage Error,” 2025. https://eduvigyan.com/absolute-error-relative-error-and-percentage-error/ (accessed Jul. 11, 2025).
[43]	M. Asrori, W. Y. Rezika, A. T. A. Salim, B. Indarto, and R. T. Nudiansyah, “Kalibrasi Alat Ukur Temperatur dan Kelembapan Kereta Rel Diesel Elektrik,” J. Tek. Terap., vol. 1, no. 2, pp. 36–41, 2022, doi: 10.25047/jteta.v1i2.14.
[44]	N. Hamdani and M. Dwiputri, “Kajian Perbandingan Suhu Panas Siang Hari Tanpa Naungan Dan Di Bawah Naungan Tanaman Rambat Markisah (Passiflora Edulis),” Lakar J. Arsit., vol. 4, no. 2, p. 94, 2021, doi: 10.30998/lja.v4i2.10322.
[45]	D. H. A. Putra, “Suhu Udara Bikin Menggigil, Ternyata Ini Penyebabnya!,” 2024. https://bmkg.go.id/press-release/?p=suhu-udara-bikin-menggigil-ternyata-ini-penyebabnya&tag=press-release&lang=ID#:~:text=Kurangnya tutupan awan pada malam,dingin terperangkap di permukaan bumi. (accessed Nov. 24, 2024).
citation:   Tambun, Rachel Amabel  (2025) RANCANG BANGUN SISTEM MONITORING PADA KANDANG BURUNG PUYUH PETELUR SECARA OTOMATIS BERBASIS INTERNET OF THINGS.  S1 thesis, Fakultas Teknik Universitas Sultan Ageng Tirtayasa.   
document_url: https://eprints.untirta.ac.id/52249/1/RachelAmabelTambun_3332200018_FullText.pdf
document_url: https://eprints.untirta.ac.id/52249/2/RachelAmabelTambun_3332200018_01.pdf
document_url: https://eprints.untirta.ac.id/52249/3/RachelAmabelTambun_3332200018_02.pdf
document_url: https://eprints.untirta.ac.id/52249/4/RachelAmabelTambun_3332200018_03.pdf
document_url: https://eprints.untirta.ac.id/52249/5/RachelAmabelTambun_3332200018_04.pdf
document_url: https://eprints.untirta.ac.id/52249/6/RachelAmabelTambun_3332200018_05.pdf
document_url: https://eprints.untirta.ac.id/52249/7/RachelAmabelTambun_3332200018_Lamp.pdf
document_url: https://eprints.untirta.ac.id/52249/8/RachelAmabelTambun_3332200018_Ref.pdf
document_url: https://eprints.untirta.ac.id/52249/9/RachelAmabelTambun_3332200018_CP.pdf