TY - JOUR
T1 - Application of multiple spatial interpolation approaches to annual rainfall data in the Wadi Cheliff basin (north Algeria)
AU - Achite, Mohammed
AU - Tsangaratos, Paraskevas
AU - Pellicone, Gaetano
AU - Mohammadi, Babak
AU - Caloiero, Tommaso
N1 - Publisher Copyright:
© 2023 Faculty of Engineering, Ain Shams University
PY - 2024/3
Y1 - 2024/3
N2 - This study addresses a challenging problem of predicting mean annual precipitation across arid and semi-arid areas in northern Algeria, utilizing deterministic, geostatistical (GS), and machine learning (ML) models. Through the analysis of data spanning nearly five decades and encompassing 150 monitoring stations, the result of Random Forest showed the highest training performance, with R square value (of 0.9524) and the Root Mean Square Error (of 24.98). Elevation emerges as a critical factor, enhancing prediction accuracy in mountainous and complex terrains when used as an auxiliary variable. Cluster analysis further refines our understanding of station distribution and precipitation characteristics, identifying four distinct clusters, each exhibiting unique precipitation patterns and elevation zones. This study helps for a better understanding of precipitation prediction, encouraging the integration of additional variables and the exploration of climate change impacts, thereby contributing to informed environmental management and adaptation strategies across diverse climatic and terrain scenarios.
AB - This study addresses a challenging problem of predicting mean annual precipitation across arid and semi-arid areas in northern Algeria, utilizing deterministic, geostatistical (GS), and machine learning (ML) models. Through the analysis of data spanning nearly five decades and encompassing 150 monitoring stations, the result of Random Forest showed the highest training performance, with R square value (of 0.9524) and the Root Mean Square Error (of 24.98). Elevation emerges as a critical factor, enhancing prediction accuracy in mountainous and complex terrains when used as an auxiliary variable. Cluster analysis further refines our understanding of station distribution and precipitation characteristics, identifying four distinct clusters, each exhibiting unique precipitation patterns and elevation zones. This study helps for a better understanding of precipitation prediction, encouraging the integration of additional variables and the exploration of climate change impacts, thereby contributing to informed environmental management and adaptation strategies across diverse climatic and terrain scenarios.
KW - Spatial interpolation
KW - Deterministic techniques
KW - Geostatistical analysis
KW - Machine learning
KW - Rainfall
U2 - 10.1016/j.asej.2023.102578
DO - 10.1016/j.asej.2023.102578
M3 - Article
AN - SCOPUS:85178174011
SN - 2090-4479
VL - 15
JO - Ain Shams Engineering Journal
JF - Ain Shams Engineering Journal
IS - 3
M1 - 102578
ER -