CONTROL OF TEMPERATURE AND HUMIDITY STABILITY USING FUZZY IN TOMATO AND CHILI PLANT AREAS WITH INTERCROPPING SYSTEM
Abstract
The community's need for tomatoes and chilies is quite high, while the land in the city of Surabaya has changed its function from agricultural land to residential land due to the increasing population. Meanwhile, tomato and chili plants can grow and thrive in a limited environment by regulating temperature, humidity and light intensity. This study aims to control the temperature and humidity in the planting area in the mini greenhouse measuring 1.0 x 0.4 x 1.35m. Tomato and chili plants are planted using an intercropping system. Temperature and humidity are detected using the DHT22 temperature and humidity sensor, the cooling system uses a thermoelectric peltier. The control method used is Fuzzy Mamdani for temperature regulation that is adjusted to the needs of the plant. The system test results show that the cooling system can reduce the greenhouse room temperature by 2 ° C for 30 minutes of testing. DHT22 sensor testing works quite well with a temperature sensor reading error between 0.00 - 1.62% and a humidity sensor with a reading error of between 1.23 - 5.95%. Overall the temperature and humidity regulation system in the greenhouse can maintain temperature stability for the growth of chili and tomato plants with an intercropping planting system.
Keywords
Full Text:
PDFReferences
. P. Arsil and P. Djatna, “Usahatani Tumpang Sari Tanaman Tomat
dan Cabai di Dataran Tinggi Kabupaten Garut,” J. Teknol. Ind.
Pertan., vol. 21, no. 2, pp. 81–88, 2011.
. Chakravorty, Jaydeep and Sharma, Ruchika. 2013. “Fuzzy Logic
Based Method of Speed Control of DC Motor”. International
Journal of Emerging Technology and Advanced Engineering.
Volume 3, Issue 4, April 2013.
. Alfonso Hsiholan, Sutikno, 2018, “Design Dan Implementasi
Sistem Kontrol Logika Fuzzy Untuk Pengaturan Kecepatan
Ayunan Bayi”, Jurnal Maestro Vol.1.1, April 2018
. S. Nurhayati, “Produksi Tanaman Tomat (Lycopersicum
esculentum Mill.) Hasil Induksi Medan Magnet Yang Diinfeksi
(Fusarium oxysporum f.sp. lycopersici),” Skripsi, 2017.
. A. Aulia, “Optimalisasi Lahan Sempit Dengan Pola Pengelolaan
Usahatani Tumpangsari (Jagung dan Cabai Merah) Di Desa
Buana Sakti Kecamatan Batanghari Kabupaten Lampung Timur”,
. P. F. Arifin et al., “Pengaruh Pola Tanam Tumpang Sari terhadap
Produktivitas Rimpang dan Kadar Senyawa Aktif Temulawak
(Curcuma xanthorrhiza Roxb.),” J. Jamu Indones., vol. 2, no. 2,
pp. 51–59, 2017.
. D. Setiawan, D. Notosudjono, and E. Wismiana, “PADA
MINIATUR GREEN HOUSE DENGAN MENGGUNAKAN
MIKROKONTROLER ATMEGA 328 Oleh?:,” pp. 1–10.
. M. Maryaningsih, Siswanto, “Metode Logika Fuzzy Dalam Sistem
Pengambilan Keputusan Penerimaan Beasiswa,” J. Media
Infotama, vol. 9, no. 1, pp. 140–165, 2013.
. A. Hussain, M. Hammad, K. Hafeez, and T. Zainab,
“Programming a Microcontroller,” Int. J. Comput. Appl., vol. 155,
no. 5, pp. 21–26, 2016.
. D. Fasudin, “Otomatisasi Air Conditioner Pendingin Ruangan
Berbasis Mikrokontroler ATmega-16, ” Emit. - J. Tek. Elektro,
vol. 5, no. 1, 2013.
. O. M. Sinaulan, “Perancangan Alat Ukur Kecepatan Kendaraan
Menggunakan ATMega 16,” E-Journal Tek. Elektro Dan Komput.,
vol. 4, no. 3, pp. 60–70, 2015.
. A. H. Saptadi, “Perbandingan Akurasi Pengukuran Su tron., vol.
, no. 2, 2015.
. S. Informasi, W. Gata, and R. Tanjung, “PROSIDING seminar
nasional sisfotek Kendali Ruang Server Menggunakan Sensor
Suhu DHT 22 , Gerak Pir dengan Notifikasi Email,” vol. 3584, pp.
–142, 2017.