THE DESIGN OF HORTICULTURAL PLANTING CONTROL SYSTEM IN A CLOSED ROOM

  • Jumiyatun Jumiyatun Jurusan Teknik Elektro Fakultas Teknik, Universitas Tadulako
  • Ardi Amir Jurusan Teknik Elektro Fakultas Teknik, Universitas Tadulako
  • Rachmiati Ndobe Jurusan Teknik Elektro Fakultas Teknik, Universitas Tadulako
  • Supriyadi Supriyadi Jurusan Teknik Elektro Fakultas Teknik, Universitas Tadulako

Abstract

The aim from this research is to design a device who can make grow and fash horticultural plant in inside a room without side-effect of sun-light with arduino mega as the brain who had control all of the system with the power for monitoring and control the light, temperature of the room, soil damp and watering the plans. Subtitute the sun-light for photosinthesis process exploit LED grow light is red and blue color, while for temperature detection inside the room used temperature sensor DHT22,chiller as a freeze tool and for detection a sum soil damp less than 280, the motor pump will active for doing watering the plans.Lettuce-plan and leady vegetable who has product from different system appropriate with combination/domination ligh who has already used, for lettuce-plan dominate with blue light and dominan red light produce lettuce is not good enough while for light combination  blue and red, lettuce-plan who has produce looking good, the are many leaf-sum, is nit brittle, and growth very fast. For leafy vegetable from three combination/dominate light who used for produce in the same condition is growth very fast, has tall stem, and small, the less leafe sum (distance) and the leave color is yelow.

Keywords: Led Grow, Motor Pump, Soil Moisture Sensor, Temperature Sensor

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References

Marsela, T., Sadjad, R.S., & Achmad, A. 2013. “Sistem Kendali Intensitas Cahaya Rumah Kaca Cerdas pada Budidaya Bunga Krisan”. Skripsi. Makassar: Universitas Hasanudin.

Nurunisa D., Sasongko A.B., & Indrianto A. 2018. “Pengaruh Warna Cahaya Light Emitting Diodes Intensitas Rendah dan Cekaman Dingin Terhadap Pertumbuhan Vegetatif Anggrek Phalaenopsis Hibrida” dalam Jurnal Biota. Yogyakarta. Volume 4(1) : 41-48.

Komala Fajar. 2017. “Otomatisasi Pengendalian Pencahayaan Untuk Tanaman Selada (Lactuca Sativa L.) Dengan Sistem Tanaman Hidroponik di dalam Greenhouse”. Skripsi. Yogyakarta : Universitas Negeri Yogyakarta

Putra R.R., Mercuriani S.I., & Semiarti E. 2016. “Pengukuran Cahaya dan Temperatur Terhadap Pertumbuhan Tunas dan Profil Protein Tanaman Anggrek Phalaenopsis amabilis Transgenik Pembawa Gen Ubipro::PaFT” dalam Jurnal Bioeksperimen. Yogyakarta. Volum 2(2): 79- 90.

Restiani A.R., Triyono, S., Tusi, A., & Zahab, R. 2015. “Pengaruh Jenis Lampu Terhadap Pertumbuhan dan Hasil Produksi Tanaman Selada (Lactuca sativa L) dalam Sistem Hidroponik Indor” dalam Jurnal Teknik Prtanian. Lampung. Volume 4(3): 219-226.

Talaumbanua M., Purwantana B., & Sutiarso L. 2014. “Rancang Bangun Aktuator Pengendali Iklim Mikro Di Dalam Greenhouse Untuk Pertumbuhan Tanaman Sawi” dalam jurnal Agritech. Yogyakarta. Volume 34(2): 213 222.

Husdi. 2018. “Monitoring Kelembaban Tanah Pertanian Menggunakan Soil Moisture Sensor FC-28 dan Arduino Uno” dalam Jurnal Ilmiah, Gorontalo. Volume 10(2):237- 243.

Irawan L. 2017. Pengaruh Ekstrak Alangalang (Imprata Cylindrica L) dan Teki (Cyperus Rotundus L) Terhadap Pertumbuhan Gulma pada Pertanaman Selada (Lactuca sativa L). Skripsi.

Kadir Abdul. 2015. “Buku Pintar Pemrograman Arduino”. MediaKom. Yogyakarta.

Adriyanto, Untung Sus & Basith Abdul, 2010. Metode dan Peramalan Aplikasi, Edisi Kedua, Jakarta : Erlangga.

Published
2019-10-03
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