Abstract
To realize precision agriculture at multiple locations in the field, a low-cost measurement system should be developed for easy collection of hydrometeorological data, such as temperature, moisture, and light. In this study, a compact and low-cost hydrometeorological measurement system with a simplified wire code, which is customizable according to the purpose of observation, was built using a circuit board that connects Arduino to the sensors, which was then implemented and analyzed. The developed system measures air and soil temperatures, soil water content, and photosynthetic photon flux density using a sensor connected to Arduino Uno and saves the continuous, high-temporal-resolution output to an SD card. The results obtained from continuous measurement showed that the data collected using this system was significantly better than those collected using commercially available equipment. Anyone can easily measure the weather environments by using this fully open, highly versatile, portable, and user-friendly system. This system can contribute to the growth and expansion of precision agriculture, field management, development of crop models, and laborsaving. It can also provide a global solution to ongoing agricultural issues and improve the efficiency of farming operations, particularly in developing and low-income countries.
Highlights
The development and widespread use of sensing technologies in agriculture has increased awareness among farmers and newcomers in the market, which may further promote the growth of the precision agriculture market in the near future
Optimal conditions for crops are different among species and environments, monitoring of temperature, soil, and light variables in the field is vital for automatic control, efficient big-data analysis, and construction of information and communications technology (ICT) agriculture platforms
This study aimed to develop a packaged hydrometeorological measurement system with the following features: low cost, improved work efficiency and wire connection reliability, and installable for open-field use at multiple locations
Summary
The development and widespread use of sensing technologies in agriculture has increased awareness among farmers and newcomers in the market, which may further promote the growth of the precision agriculture market in the near future. For sensing technologies, such as unmanned aerial vehicles, remote-sensing devices, field servers, yield-monitoring system, and harvesting robots, the daily monitoring of external hydrometeorological conditions is one of the most fundamental aspects to be considered in integrated management and operation of crop growth because meteorological and soil conditions have significant impacts on crop growth and stress. The temperature conditions of plant growth prompt a developmental switch and is the factor that determines where and for Published: 22 October 2021
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