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IJSTR >> Volume 9 - Issue 6, June 2020 Edition

International Journal of Scientific & Technology Research  
International Journal of Scientific & Technology Research

Website: http://www.ijstr.org

ISSN 2277-8616

Effect Of Growth Lettuce Varieties With Automation System Application Temperature And Humidity Sensor Using Microcontroller Wemos

[Full Text]



Yanuar Nurdiansyah, Yudha Alif Auliya, Muhammad Tajuddin



system prototype, collect data, sensor performance, lettuce varieties



Designing a temperature and humidity sensor automation system using a prototype model is a step in building a smaller scope (lab scale) refers to real conditions where further implementation (original scale) is easier to implement if it is based on a prototype system because in addition to combining the conditions of the design also produced several versions of the series according to the lab scale to be used. Using an Arduino type wemos microcontroller as the center of the system arrangement with various types of tools as optimizing the temperature and humidity needed by lettuce varieties, including DHT sensors for data collection (collect data) and used as a benchmark in determining the condition of the tool. Testing two DHT sensors calibrated with a digital multimeter with certain conditions to find the smallest error value. Sensors that generate value to thorough's highest on a predetermined condition to be used in the stage of the study the growth of lettuce varieties. Every data collected by sensors (collect data) is processed and sent to a website to be displayed periodically (real time) with the provisions of the connected Wi-Fi network. Furthermore, testing on the growth of lettuce varieties used two growing media, with treatment (automation system) and without treatment. Using 8 plant samples each of the planting media there were 4 plants, for 14 days the optimal growth was searched between the two planting media by comparing based on graphs of growth of lettuce varieties both in terms of height increase and width of leaves per day.



[1] Agus Wirawan I Made dkk (2017). Sistem Pemantauan Suhu Lab Jarak Jauh Berbasis Arduino. SEMNASVOKTEK, Denpasar-Bali.
[2] Bahtera firmawan dony (2019). Implementasi Simple Multi Attribute Rating Technique pada Sistem Pemilihan Kelayakan Lahan Tanam Tembakau Menggunakan Arduino. Universitas Jember, Jember.
[3] Cahyono, B. (2014). Teknik Budidaya Daya dan Analisis Usaha Tani Selada. CV Aneka Ilmu. Semarang.
[4] Darmawan, I, A. (1997). Pengaruh Topoklimat terhadap produksi dan Kualitas Selada (Lactuca sativa L.). Universitas Gadjah Mada, Yogyakarta.
[5] Grubben, G. J. H. and S. Sukprakarn. (1994). Lactuca sativa L., p. 186-190. In J. S. Siemonsma and K. Piluek (Eds.). Plant Resourches of South-East Asia No 8 Vegetables. PROSEA. Bogor, Indonesia.
[6] Hakim M. A. R dkk (2019) Pertumbuhan dan Produksi Dua Varietas Selada (Lactuca sativa L) pada Berbagai Tingkat Naungan dengan Metode Hidroponik. Universitas Diponegoro, J. Agro Complex 3(1):15-23.
[7] Krisna, B., E. T. S. Putra, R. Rogomulyo, D. Kastono. (2017). Pengaruh pengayaan oksigen dan kalsium terhadap pertumbuhan akar dan hasil selada keriting (Lactuca sativa L.) pada hidroponik rakit apung. Jurnal Vegetalika, 6 (4): 14-27.
[8] Mas’ud hidayati (2009). Sistem hidroponik dengan nutrisi dan media tanam berbeda terhadap pertumbuhan dan hasil selada. Media litbang Sulteng 2(2): 131-136
[9] Muangprathub Jirapond et al (2019). IoT and agriculture data analysis for smart farm. ScienceDirect, Computer and Electronics in Agriculture 156, 467-474
[10] Parimi Sashikala, Chakraborty Samyadip (2020). Application of Big Data & Iot on Personalized Healthcare Services. International Journal of Scientific & Technology Research Vol.9, Issue 03
[11] Qurrotul Aini Rakhmi, dkk, (2010). Penerapan Bionutrien KPD pada Tanaman Selada Keriting (Lactuca sativa var. crispa). Jurnal Sains dan Teknologi Kimia, Vol 1, No.1, Hal 73-79
[12] Royan Da’imul, dkk 2017. Analisis Performa Sistem Pemantauan Suhu dan Kelembaban Berbasis Wireless Sensor Network. Universitas Brawijaya, Vol. 1, No 12.
[13] Sunehra Dhiraj, Siddireddygari Shreeya (2020). Patient Health Monitoring System Using Arduino Mega 2560 and Thingsboard Server. International Journal of Scientific & Technology Research Vol.9, Issue 03
[14] Wijaya Rico et al (2019) Temperature and Humidity Monitoring System in Server Room Using Raspberry Pi. International Journal of Scientific & Technology Research Vol.8, Issue 10.