如何利用NARX人工神经网络预测气候变化影响下的地下水位

Safieh Javadinejad, R. Dara, F. Jafary
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引用次数: 9

摘要

近年来的气候变化现象导致了气候要素的显著变化,从而导致了地表水和地下水资源的状况,特别是在干旱和半干旱地区,这一问题有时会造成地下水资源的显著下降。本文研究了气候变化对马夫达什特平原地下水资源状况的影响。该地区不同地区的供水高度依赖地下水资源,因此研究未来时期地下水的变化对该平原的开发和水资源管理具有重要意义。为了评估气候变化的影响,使用了大气环流模式(GCM)的输出。然后,为了使这些模式的输出尺度适应局部气候变化研究所需的尺度,降水和温度数据被LARS-WG模式降尺度。缩小比例的信息被用来确定未来时期含水层的进给量和排水量。为了研究不同阶段地下水位的变化,在MATLAB软件环境下建立了神经网络动态模型。也可以使用其他场景和数学建模来研究和比较其他点。研究结果表明,鉴于气候变化及其对研究区资源和利用的影响,该区域的含水层体积呈下降趋势。结果还将情景A2作为与气候变化相关的最关键情景,该情景在神经网络模型中也显示出最大的含水层下降。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
How groundwater level can predict under the effect of climate change by using artificial neural networks of NARX
The phenomenon of climate change in recent years has led to significant changes in climatic elements and as a result the status of surface and groundwater resources, especially in arid and semi-arid regions, this issue has sometimes caused a significant decline in groundwater resources. In this paper, the effects of climate change on the status of groundwater resources in Marvdasht plain have been investigated. Water supply of different parts of this region is highly dependent on groundwater resources and therefore the study of groundwater changes in future periods is important in the development of this plain and the management of its water resources. In order to evaluate the effects of climate change, the output of atmospheric circulation models (GCM) has been used. Then, in order to adapt the output scale of these models to the scale required by local studies of climate change, precipitation and temperature data have been downscaled by LARS-WG model. Downscaled information was used to determine the amount of feed and drainage of the aquifer in future periods. To investigate changes in groundwater levels at different stages, a neural network dynamic model has been developed in MATLAB software environment. It is also possible to study and compare other points using other scenarios and mathematical modeling. The results of the study, assuming the current state of development in the region, indicate a downward trend in the volume of the aquifer due to climate change and its effects on resources and uses of the study area. The results also introduce Scenario A2 as the most critical scenario related to climate change, which also shows the largest aquifer decline in neural network modeling.
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