Improvement of drought forecasting by means of various machine learning algorithms and wavelet transformation

IF 2.3 4区 地球科学
Türker Tuğrul, Mehmet Ali Hinis
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Abstract

Drought, which is defined as a decrease in average rainfall amounts, is one of the most insidious natural disasters. When it starts, people may not be aware of it, which is why droughts are difficult to monitor. Scientists have long been working to predict and monitor droughts. For this purpose, they have developed many methods, such as drought indices, one of which is the Standardized Precipitation Index (SPI). In this study, SPI was used to detect droughts, and machine learning algorithms, including support vector machines (SVM), artificial neural networks, random forest, and decision tree, were used to predict droughts. In addition, 3 different statistical criteria, which are correlation coefficient (r), root mean square error (RMSE), and Nash–Sutcliffe efficiency (NSE), were used to investigate model performance values. The wavelet transform (WT) was also applied to improve model performance. One of the areas most impacted by droughts in Turkey is the Konya Closed Basin, which is geographically positioned in the center of the country and is among the top grain-producing regions in Turkey. The Apa Dam is one of the most significant water resources in the area. It provides water to many fertile fields in its vicinity and is affected by droughts which is why it was selected as a study area. Meteorological data, such as monthly precipitation, that could represent the region were obtained between 1955 and 2020 from the general directorate of state water works and the general directorate of meteorology. According to the findings, the M04 model, whose input structure was developed using SPI, various time steps, data delayed up to 5 months, and monthly precipitation data from the preceding month (time t − 1), produced the best results out of all the models examined using machine learning algorithms. Among machine learning algorithms, SVM has achieved the most successful results not only before applying WT but also after WT. The best results were obtained from M04, in which SVM with WT was used (NSE = 0.9942, RMSE = 0.0764, R = 0.9971).

Abstract Image

通过各种机器学习算法和小波变换改进干旱预测
干旱是指平均降雨量减少,是最隐蔽的自然灾害之一。当干旱开始时,人们可能意识不到它的存在,这也是干旱难以监测的原因。长期以来,科学家们一直致力于预测和监测干旱。为此,他们开发了许多方法,如干旱指数,标准化降水指数(SPI)就是其中之一。本研究使用 SPI 来检测干旱,并使用机器学习算法(包括支持向量机 (SVM)、人工神经网络、随机森林和决策树)来预测干旱。此外,还使用了三种不同的统计标准,即相关系数(r)、均方根误差(RMSE)和纳什-苏特克利夫效率(NSE),来研究模型的性能值。小波变换 (WT) 也被用于改善模型性能。土耳其受干旱影响最严重的地区之一是科尼亚封闭盆地,该盆地在地理位置上位于土耳其中部,是土耳其最重要的谷物产区之一。阿帕水坝是该地区最重要的水资源之一。它为附近许多肥沃的田地提供水源,并受到干旱的影响,因此被选为研究区域。研究人员从国家水利工程总局和气象总局获得了 1955 年至 2020 年期间能够代表该地区的气象数据,如月度降水量。研究结果表明,M04 模型的输入结构是利用 SPI、不同的时间步长、延迟至 5 个月的数据以及前一个月(时间 t - 1)的月降水量数据建立的,在所有使用机器学习算法研究的模型中,该模型的结果最好。在机器学习算法中,SVM 不仅在应用 WT 之前,而且在应用 WT 之后都取得了最成功的结果。M04 的结果最好,其中使用了带有 WT 的 SVM(NSE = 0.9942,RMSE = 0.0764,R = 0.9971)。
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来源期刊
Acta Geophysica
Acta Geophysica GEOCHEMISTRY & GEOPHYSICS-
CiteScore
3.80
自引率
13.00%
发文量
251
期刊介绍: Acta Geophysica is open to all kinds of manuscripts including research and review articles, short communications, comments to published papers, letters to the Editor as well as book reviews. Some of the issues are fully devoted to particular topics; we do encourage proposals for such topical issues. We accept submissions from scientists world-wide, offering high scientific and editorial standard and comprehensive treatment of the discussed topics.
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