IoTTECH : TECHNOLOGY INTERNET OF THINGS (IoT) UNTUK PENGATURAN OTOMATIS KELEMBABAN & TEMPERATUR RUANGAN BUDIDAYA JAMUR TIRAM (PLEUROTUS OSTREATUS)

Main Article Content

Marcell Petrus Saptono
Yusverison Andika

Abstract

The results of the IoTTech Internet of Things (IoT) tool for Oyster Mushroom cultivation control the temperature and humidity of the Oyster Mushroom cultivation house. This IOTTECH technology has a DHT11 sensor input to be processed to the Arduino mega and ethernet shield while the output of this tool is an android smartphone, actuator, humidity and temperature control using the Blynk application. The initial process with the DHT11 sensor sends data to the microcontroller for the process of displaying the output value of humidity, LDR and temperature, the output is displayed on an android smartphone as a monitoring interface with the Blynk application as remote monitoring. This research produced a prototype for the output humidity, LDR and air temperature in mushroom houses using the Internet of Thing (IoT) using Blynk. The regulation of output humidity, LDR and temperature uses IoT via blynk, more efficient both in terms of time and cost. The actuator will live automatically according to the humidity, LDR and temperature that has been set.

Downloads

Download data is not yet available.

Article Details

How to Cite
Saptono, M., & Andika, Y. (2020). IoTTECH : TECHNOLOGY INTERNET OF THINGS (IoT) UNTUK PENGATURAN OTOMATIS KELEMBABAN & TEMPERATUR RUANGAN BUDIDAYA JAMUR TIRAM (PLEUROTUS OSTREATUS). Electro Luceat, 6(2), 373-378. https://doi.org/10.32531/jelekn.v6i2.284
Section
Articles
Author Biography

Yusverison Andika, Politeknik Saint Paul Sorong

Politeknik Saint Paul Sorong

References

[1] Ajie. 2016. Mengukur Temperatur dan Kelembaban Udara dengan Sensor DHT11 dan Arduino. Diakses dari : http://saptaji.com/2016/08/10/mengukur-temperatur-dan kelembaban-udara-dengan-sensor-dht11-dan-arduino/, pada tanggal 10 Agustus 2019.
[2] Arafat. 2016. Sistem Pengaman Pintu Rumah Berbasis Internet of Things (IoT) dengan ESP8266. “Technologia” Vol. 7, No. 4, diakses 10 Agustus 2019.
[3] Budisanjaya et al. (2016) Pemantau temperatur dan kadar air kompos berbasis Internet of Things (IoT) dengan Arduino Mega dan Esp8266. Jurnal Agrotechno, Vol 1 No 2, Oktober 2016.
[4] Fama Sapto. 2018. Peluang Ekspor Usaha Tani Jamur yang Menjamur. Diakses dari: https://monitor.co.id/ekonomi/pertanian/peluang-ekspor-usaha-tanijamur-yang-menjamur/. Pada tanggal 9 Agustus 2019.
[5] Kementerian Pertanian. 2017. Pertanian Leading Sektor Pembangunan Berkelanjutan. Diakses dari : http://pusdatin.setjen.pertanian.go.id/berita222-pertanian-leading-sektor-pembangunan-berkelanjutan.html, pada tanggal 10 Agustus 2019
[6] Nugroho, Joko (2014). Sistem monitoring pendeteksi temperatur dan kelembaban pada rumah jamur berbasis mikrokontroller AT-Mega 328. Skripsi Universitas Muhammadiyah Ponorogo.
[7] Pressman, R.S. 2012. Rekayasa Perangkat Lunak. Yogyakarta. Andi & McGrawHill Book Co.
[8] Sadewa, H R. (2018). Rekayasa pengendalian temperature dan kelembaban pada budidaya jamur tiram berbasis Arduino dan monitoring labview, skripsi, Universitas Islam Indonesia, Yogyakarta.
[9] Rohmah, A. (2019). Sistem kendali dan akuisisi data temperatur serta kelembaban ruang budidaya jamur tiram (Pleurotus Ostreatus) berbasis internet of Things (IoT), Tugas Akhir, Universitas Negeri Yogyakarta.
[10] Saptono, M, P (2020). Prototype Rancangan Printer 3d Dengan Smart LCD Berbasis Arduino Mega 2560 Menggunakan Teknologi Fused Filament Fabricatio,Jurnal Electro Luceat (JEC), Vol 6 No 1 July 2020
Abstract viewed = 46 times
PDF downloaded = 41 times