SMART HYDROPONIC BERBASIS ANDROID DI SMKN 6 KENDAL
Abstract
The rapid development of technology makes people innovate to make new things and leave old ways to simplify and save time a job. One example is monitoring the value of pH, PPM, room temperature and humidity as well as water temperature of hydroponic plants that used to still use conventional tools, now switching to Android-based IoT technology (Smart Hydroponics), especially at SMKN 6 Kendal.
IoT is a way of connecting the Arduino sensor modules needed for hydroponic cultivation, where the results of sensor readings will be actually sent to the user's Android smartphone. The Arduino sensors are pH, TDS, DHT 11, ds1820 sensors.
With this smart hydroponics, it is hoped that it can help hydroponic cultivators in the SMKN 6 Kendal environment to monitor their gardens anywhere and anytime and control the hydroponic temperature to be maintained below 30 degrees. From the reading of the value of the smart hydroponic sensor, it works well with existing standards and through MAPE calculations with a value below 10%.
References
Artono, B., Putra, R.G., 2019, Penerapan Internet Of Things (IoT) Untuk Kontrol Lampu Menggunakan Arduino Berbasis Web, Jurnal Teknologi Informasi dan Terapan.
Buana, Z., Candra, O., Elfizon., 2019, “Sistem pemantauan tanaman sayur dengan media tanam hidroponik menggunakan Arduino”.
Cahyo, N,T., Erwanto, D., Rosantri, A.D., 2019, “Alat Pengendali Derajat PH Pada Sistem Hidroponik Tanaman Pakcoy Berbasis Arduino Uno Menggunakan Metode PID”, Multitek Indonesia: Jurnal Ilmiah.
Cholish., Rimbawati., Hutasuhut, A.A., 2017, Analisa Perbandingan Switch Mode Power Supply (SMPS) dan Transformator Linear Pada Audio Amplifier, Jurnal Ilmiah Pendidikan Teknik Elektro.
Darmawan, A., 2016, Arduino Belajar Capat dan Pemrograman, Informatika, Bandung.
Darmawan, D., Kunkun, N.F., 2013, Sistem Informasi Manajemen, PT Remaja Rosdakarya, Bandung.
Hasan, A., 2018, “SISTEM MONITORING SUHU DAN KELEMBABAN PADA INKUBATOR BAYI BERBASIS INTERNET OF THINGS (IoT)”.
Huda, A.A., 2013, Live Coding Aplikasi Android buatan Sendiri, Andi, Yogyakarta.
Kevin, K., 2009, That ‘Internet of Things’ Thing. RFID Journal.
Kho, D., 2020, Pengertian Relay dan Fungsinya Website: https://teknikelektronika.com/pengertian-relay- fungsi-relay Di akses 20 Juni 2020.
Lim, A.B., 2020, “SISTEM KENDALI HIDROPONIK DALAM RUANGAN BERBASIS RASPBERRY PI”.
Listiyo, A., 2019, “PENGENDALIAN LAMPU RUMAH BERBASIS GOOGLE ASISSTANT MELALUI SMARTPHONE MENGGUNAKAN NodeMCU-12E ESP8266 DI NUKE KOMPUTER SERVICE”.
Mcleod, R., 2007. Sistem Informasi Manajemen.Edisi 9, PT Index, Jakarta.
Nadiansyah, R.R., 2018, “SISTEM PENGENDALI KIPAS ANGIN BERBASIS NODEMCU ESP8226”.
Nikodemus, W.K., 2013, Step by Step menjadi programmer android , Andi, Yogyakarta.
Nisa, S.K., 2020, Cara merawat tanaman Hidroponik, Wesite: https://www.kompasiana.com/syahadahnisa227 3/5e278146d541df4ab23ea064/cara-merawat- tanaman-hidroponik, Di akses pada 20 Juni 2020.
Petruzella, F.D., 2001, Elektronik Industri, Andi, Yogyakarta.
Prayitno, W.A., Mutaqqin, A., Syauqy, D., 2017, Sistem Monitor Suhu, Kelembaban Dan Pengendali Penyiraman Tanaman Hidroponik Menggunakan Blynk Andorid, Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer.
Resh, H.M., 1998, Hydroponic Food Production.
Woodbridge Press Publ. Co. Santa Barbara.
Rozaq, I.A., Yulita, DS.N., 2017, “UJI KARAKTERISASI SENSOR SUHU DS18B20 WATERPROOF BERBASIS ARDUINO UNO SEBAGAI SALAH SATU PARAMETER KUALITAS AIR”.
Safaat, N., 2015, Pemrograman Android: Pemrograman Aplikasi Mobile Smartphone dan Tablet PC Berbasis Android, BI-OBSES, Bandung.
Saputro, T.T., 2017, Mengenal NodeMCU: Pertemuan pertama, website:
https://embeddednesia.com/v1/tutorial-nodemcu-pertemuan-pertama/ Di akses 20 Juni 2020.
Sarade, S.S., Joshi, A.C., 2012, Wireless Temperature Monitoring System Using Wireless Sensor Networks, International Journal of Advanced Research in Electronics and Communication Engineering.
Sidharta, L., 1996, Internet Informasi Bebas Hambatan, Elex Media Komputindo, Jakarta.
Sougy, A.A., 2018, RANCANG BANGUN SMART GARDEN BERBASIS IoT MENGGUNAKAN APLIKASI BLYNK.
Tung, K.Y., 1997, Teknologi jaringan Internet, Andi, Yogyakarta.
Usmanto, B., Bernadhita, H.S.U., 2018, “PROTOTYPE SISTEM PENDETEKSI DAN PERINGATAN DINI BENCANA ALAM DI INDONESIA BERBASIS INTERNET OF THINGS (IoT)”.
Wiraajiputro, G., 2014, “MEMBANGUN GAME EDUKASI "BERLIBUR BERSAMA KAKEK" UNTUK PENGENALAN CARA BERCOCOK TANAM DAN JENIS TANAMAN OBAT BERBASIS ANDROID”.
Zarkasi, M., 2018, “SISTEM OTOMASI PENYIRAMAN TANAMAN MENGGUNAKAN SENSOR SOIL MOISTURE YL-69 DAN MONITORING KONDISI LINGKUNGAN PADA RUMAH KACA BERBASIS ARDUINO MEGA 2560”.
Zulkarnain, I., 2012, BERTANAM SAYURAN
HIDROPONIK, Simple Technology, PT. Amris Andalas Putra 1, Website: https://fdokumen.com/document/simple- technology-2012-bertanam-sayuran- technology-2012-pt-amris-andalas-putra.html, Di akses pada 20 Juni 2020.
Solikhin, S., & Yudatama, U. (2019). Fuzzy Time Series dan Algoritme Average Based Length untuk Prediksi Pekerja Migran Indonesia. Jurnal Teknologi Informasi dan Ilmu Komputer, 6(4), 369-376.
Chang, P.-C., Wang, Y.-W., Liu, C.-H., 2007. The development of a weighted evolving fuzzy neural network for PCB sales forecasting. Expert Systems with Applications, Vol.32, pp.86–96.
