Semiparametric modeling in statistical downscaling to predict rainfall

Wigena, Aji Hamim; Djuraidah, Anik; Rizki, Akbar

doi:10.12988/ams.2015.54362

Cited by 2 publications

(4 citation statements)

References 12 publications

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“…The number of spline knot in a model depended on the number of parameter and degree the basic model. The cubical model with the spline combination knot of 14, 8, 7, 5 were the best spline combination knot [14]. Figure 4).…”

Section: Data Explorationmentioning

confidence: 95%

“…The study of the SD modeling with nonparametric approach that was used was spline multivariate additive regression [11]. The study of the SD modeling with semiparametric that was used was penalty spline regression (P-sline) with mixed linear model approach [14]. However, the SD modeling predicted the average rainfall.…”

Section: Introductionmentioning

confidence: 99%

“…The type of the functional relationship in the quantile regression could be developed into nonparametric type. The best type of the functional relationship between rainfall and GCM was the spline [14]. Quantile spline regression had been used to predict the air pollution in Surabaya [1].…”

Section: Introductionmentioning

confidence: 99%

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Quantile spline regression on statistical downscaling model to predict extreme rainfall in Indramayu

Goldameir¹,

Djuraidah²,

Wigena³

2015

ams

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Statiscal Downscaling (SD) was a method to model the relationship between local scale data as response variable and global scale data as predictor variable. The response variable was the rainfall and the predictor variable was the global circulation model (GCM) ouput. In general, GCM output had a large dimension and multicollinearity so the principal component analysis was used to solve this problem. This study modeled the rainfall with the selected principal component using quantile regression. This functional relationship could be parametric or nonparametric relationship. In this case, nonparametric functional relationship used spline to accommodate the extreme value with the quantile regression. The result showed that the quantile spline model was better than the quantile polynomial regression model especially in predicting the extreme values in the 90 th and 95 th quantile with correlation values of 0.95 and 0.93.

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Section: Data Explorationmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

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Quantile spline regression on statistical downscaling model to predict extreme rainfall in Indramayu

Goldameir¹,

Djuraidah²,

Wigena³

2015

ams

Self Cite

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“…GCM output can be used to estimate climate parameters on a local scale using downscaling techniques. One of the downscaling techniques that can be used to obtain localscale information from GCM output data is statistical downscaling (SD) [2]. SD uses a statistical model to connect functionally between global climate parameters obtained from GCM output with local climate parameters obtained from climatology observation stations.…”

Section: Introductionmentioning

confidence: 99%

Two-Stage Statistical Downscaling Modeling with Multi-Class Random Forest on Rainfall Prediction

Hadiana¹,

Soleh²,

Sartono³

2020

Proceedings of the Proceedings of the 1st International Conference on Statistics and Analytics, ICSA 2019, 2-3 August 2019, Bog

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Statistical downscaling (SD) modeling to predict rainfall has been widely used using the General Circulation Model (GCM) output. Based on the previous study, SD modeling to predict rainfall by rainfall grouping (two-stages) gives a smaller Root Mean Squares Error of Prediction (RMSEP) than SD modeling without rainfall grouping (onestage). In this study, the daily and monthly rainfall were divided into three groups based on their intensity (volume) and two-stages SD modeling was applied to predict rainfall. The first stage was rainfall groups classification using random forest. The second stage was rainfall prediction using Partial Least Squares Regression (PLSR). The accuracy obtained by random forest for daily and monthly rainfall lied between 62%-84%. The RMSEP obtained from two-stages SD modeling for daily rainfall was similar to onestage SD modeling, where the Coefficient of Variation (CV) was above 100%. The different results happened when two-stages SD modeling was applied to monthly data. The RMSEP obtained was better than one-stage SD modeling, where the CV lied between 30%-50%.

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Semiparametric modeling in statistical downscaling to predict rainfall

Cited by 2 publications

References 12 publications

Quantile spline regression on statistical downscaling model to predict extreme rainfall in Indramayu

Quantile spline regression on statistical downscaling model to predict extreme rainfall in Indramayu

Two-Stage Statistical Downscaling Modeling with Multi-Class Random Forest on Rainfall Prediction

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