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Rainstorm Prediction Using Support Vector Machine in Hadoop Cluster


Affiliations
1 Department of Computer Science and Engineering, Sri Shakthi Institute of Engineering and Technology, Coimbatore, Tamil Nadu, India
     

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Rainfall data is collected to predict the storm warnings from the hydrological data. This is considered as a research idea as it consumes huge number of records from the distributed system. This paper describes a novel solution to manage the data based on spatial temporal characteristics using a Map Reduce Framework. The workload is classified using support vector machine (SVM). Various rainstorm prediction concepts are achieved using the big raw rainfall data. The dataset impact parameters are classified into local, hourly, and overall storms. The proposed system serves as a tool for predicting rainstorm from a large amount of rainfall data in an efficient manner. The result indicates the proposed system improves the performance in terms of accuracy and efficiency.

Keywords

Storm Analysis, Map Reduce, Rainfall, Hydrological Data, Support Vector Machine.
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  • Rainstorm Prediction Using Support Vector Machine in Hadoop Cluster

Abstract Views: 280  |  PDF Views: 3

Authors

C. P. Shabariram
Department of Computer Science and Engineering, Sri Shakthi Institute of Engineering and Technology, Coimbatore, Tamil Nadu, India

Abstract


Rainfall data is collected to predict the storm warnings from the hydrological data. This is considered as a research idea as it consumes huge number of records from the distributed system. This paper describes a novel solution to manage the data based on spatial temporal characteristics using a Map Reduce Framework. The workload is classified using support vector machine (SVM). Various rainstorm prediction concepts are achieved using the big raw rainfall data. The dataset impact parameters are classified into local, hourly, and overall storms. The proposed system serves as a tool for predicting rainstorm from a large amount of rainfall data in an efficient manner. The result indicates the proposed system improves the performance in terms of accuracy and efficiency.

Keywords


Storm Analysis, Map Reduce, Rainfall, Hydrological Data, Support Vector Machine.