Water Control Units in Agricultere using a Smartphone
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Abstract
The objective of this project is to create a portable water-switch control system that can be used in various types of vegetables, agricultural fields, and agricultural sites. Users and various types of agricultural locations are prepared to study the control of wireless technology devices to facilitate users and study the working patterns of humidity and temperature sensors used in the water opening by measuring the humidity in the soil sensor shown through the mobile application. If the humidity is lower than the set value, the Application will be sent to MCU ESP8266 to turn on and off the water if the humidity reaches the set value. The results of the research showed that the control of water distribution for agriculture by smartphone. It can solve problems and facilitate water users without having to waste time turning on and off the water. Reduce the problem of forgetting to turn off the water and have more time for other activities.
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References
Pothong, T., Mekarun, P., and Choosumrong, S. (2019). Development of Smart Farming Service System for Smart Farmer using FOSS4G and IoT. Naresuan Agriculture Journal, 16(2), 10-17.
Nannae, A., Phonnrahatsidikun, A., Jina, N., and Panpaeng, S. (2021). Garlic Automatic Watering System with Solar Energy and Controlled VIA Smart Phone. Science Technology and Innovation Conference (1), 774-781.
Srbinovska, M., Gavrovski, C., Dimcev, V., Krkoleva, A., and Borozan, V. (2015). Environmental Parameters Monitoring in Precision Agriculture Using Wireless Sensor Networks. Journal of Cleaner Production, 88, 297-307.
Stirankura, R., Mitrsongkraw, P., and Wichayalat, A. (2020). Designing Smart Learning Environment Using Internet of Things (IoT VRU Research and Development Journal Science and Technology, 15(3), 25-36.
Soemphol, C., Sriwankham, C., Kongthan, Y., and Suansanit, N. (2020). Vertical Agriculturesystem Controlled VIA Smart Phone Application. Udon Thani Rajabhat University Journal of Sciences and Technology, 8(2), 187-200.
Lertkonsarn, S., and Khwunnak, C. (2019). Development supplementary media on electrical circuits with AR technology via mobile learning. Engineering Access, 5(1), 43-47.
Lertkonsarn, S., and Sa-ngiamvibool, W. (2022). The development a fully-balanced current-tunable first-order low-pass filter with Caprio technique. EUREKA: Physics and Engineering, (5), 99-106.