Abstract
Water conservation starts from rationalizing irrigation, as it is the largest consumer of this vital source. Following the critical and urgent nature of this issue, several works have been proposed. The idea of most researchers is to develop irrigation management systems to meet the water needs of plants with optimal use of this resource. In fact, irrigation water requirement is only the amount of water that must be applied to compensate the evapotranspiration loss. Penman-Monteith equation is the most common formula to evaluate reference evapotranspiration, but it requires many factors that cannot be available in many cases. This leads to a trend towards behavior model estimation. System identification with control is one of the most promising applications in this axis. The idea behind this proposal depends on three stages: First, the estimation of reference evapotranspiration (ET0) by a linear ARX model, where temperature, relative humidity, insolation duration and wind speed are used as inputs, and ET0 estimated by Penman-Monteith equation as output. The results show that the values estimated by this method were in good agreement with the measured data. The second part of this paper is to manage the quantity of water. For this purpose, two controllers are used for testing, lead-lag and PID. To adjust the first controller and optimize the choice of its parameters, Nelder-Mead algorithm is used. In the last part, a comparative study is done between the two used controllers.
Highlights
The importance of water resource does not need to be proved
System identification with the autoregressive polynomial method with exogenous variables (ARX) is chosen to model the ET0, and the estimated results are compared to the measured values to test and validate the obtained model
Lead lag and PID controllers are used to control the quantity of water for crops irrigation, and a comparative study is done
Summary
The importance of water resource does not need to be proved. At first sight water seems to be the most abundant resource on earth, but freshwater represents only 1% of all terrestrial water, and the remaining 99% are not available for human use. From an agricultural point of view, its spatialized measurement is an essential tool for the management of water resources and the optimization of irrigation on a territorial scale. This introduction explains the existence of several works to estimate this factor. System identification with the autoregressive polynomial method with exogenous variables (ARX) is chosen to model the ET0, and the estimated results are compared to the measured values to test and validate the obtained model In another step, lead lag and PID controllers are used to control the quantity of water for crops irrigation, and a comparative study is done
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