Abstract
Agricultural irrigation developments have gained attention to improve crop yields and reduce water use. However, traditional irrigation requires excessive amounts of water and consumes high electrical energy to schedule irrigations. This paper proposes a fuzzy-based intelligent irrigation scheduling system using a low-cost wireless sensor network (WSN). The fuzzy logic system takes crop and soil water variabilities into account to adaptively schedule irrigations. The theoretical crop water stress index (CWSI) is calculated to indicate plant water status using canopy temperature, solar irradiation, and vapor pressure deficit. Furthermore, the soil moisture content obtained by a capacitive soil moisture sensor is used as a determination of water status in soil. These two variables are thus incorporated to improve the precision of the irrigation scheduling system. In the experiment, the proposed irrigation scheduling system is validated and compared with existing conventional irrigation systems to explore its performance. Implementation of this system leads to a decrease in water use by 59.61% and electrical energy consumption by 67.35%, while the crop yield increases by 22.58%. The experimental results reveal that the proposed irrigation scheduling system is effective in terms of precision irrigation scheduling and efficient regarding water use and energy consumption. Finally, the cost analysis is performed to confirm the economic benefit of the proposed irrigation scheduling system.
Highlights
Agricultural irrigation always receives attention as an important application for the purpose of crop cultivation and production
In addition to the verification, a comparative study was performed to obtain the performance of the proposed irrigation scheduling system, compared with the traditional irrigation system and conventional drip irrigation system
The manual irrigation was used for the traditional irrigation system, while the conventional drip irrigation system was based on pre-defined time-based irrigation
Summary
Agricultural irrigation always receives attention as an important application for the purpose of crop cultivation and production. A reliable and suitable irrigation water supply can significantly raise vast improvements in agricultural productivity and water savings. The traditional irrigation practice involves applying water as uniformly as possible over every part of the field without taking the variability of soil and crop water needs into account. Of the field are over-irrigated, other parts of the field are under-irrigated [1]. Variable rate irrigation (VRI) provides the flexibility to manage spatial and temporal variabilities within different zones of a production field. Precision irrigation (PI) systems have been focused and enabled by the advancement of sensor technologies and the internet of things (IoT).
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