Runoff Prediction by Support Vector Machine for Chalous River Basin of IranReport as inadecuate




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Journal: International Journal of Geography and Geology

Abstract: Runoff is the result from the comprehensive action of climate conditions and drainage area underlying surface. Rainfall, evaporation, temperature, wind speed, solar radiation and relative humidity are the most important factor which effect on runoff. Prediction of runoff amounts is performed using Support Vector Machine SVM. In this paper, the prediction of runoff for Chalous River basin along the Caspian Sea is investigated. A model based on SVM approach is proposed to runoff, predicated on a total of 8 years daily data sets, including field investigation records for the Chalous River Basin along the southern shoreline of Caspian Sea. This study addresses the question of whether Support Vector Machine SVM approach could be used to predict runoff. Results revealed that SVM provides an effective means of efficiently recognizing accurately predicting the runoff and the prediction of the future runoff evolution trend with this model will provide the basis for water regulation and water resources reasonable configuration. This study uses new estimation methodology as well as support vector machine SVM to predict runoff amount based on hydrological condition in Chalous river basin from north of Iran. This study addresses the capability of SVM in runoff prediction.

Energy & Environmental Sciences

International Journal of Geography and Geology

Month: 06-2016 Issue: 6







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