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Predicting Size of Forest Fire Using Hybrid Model

Shidik, Guruh Fajar and Mustofa, Khabib (2014) Predicting Size of Forest Fire Using Hybrid Model. Document Repository.

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Abstract

This paper outlines a hybrid approach in data mining to predict the size of forest fire using meteorological and forest weather index (FWI) variables such as Fine Fuel Moisture Code (FFMC), Duff Moisture Code (DMC), Drought Code (DC), Initial Spread Index (ISI), temperature, Relative Humidity (RH), wind and rain. The hybrid model is developed with clustering and classification approaches. Fuzzy C-Means (FCM) is used to cluster the historical variables. The clustered data are then used as inputs to Back-Propagation Neural Network classification. The label dataset having value greater than zero in fire area size are clustered using FCM to produce two categorical clusters,i.e.:Light Burn, and Heavy Burn for its label. On the other hand, fire area label with value zero is clustered as No Burn Area. A Back-Propagation Neural Network (BPNN) is trained based on these data to classify the output (burn area) in three categories, No Burn Area, Light Burn and Heavy Burn. The experiment shows promising results depicting classification size of forest fire with the accuracy of confusion matrix around 97, 50 % and Cohens Kappa 0.954. This research also compares the performance of proposed model with other classification method such as SVM, Naive Bayes, DCT Tree, and K-NN that showed BPNN have best performance. Information and Communication Technology Lecture Notes in Computer Science Volume 8407, 2014, pp 316-327 http://link.springer.com/chapter/10.1007%2F978-3-642-55032-4_31

Item Type: Article
Subjects: T Technology > Teknik Informatika
Universitas Dian Nuswantoro > Fakultas Ilmu Komputer > Teknik Informatika
Divisions: Library of Congress Subject Areas > T Technology > Teknik Informatika
Fakultas Ilmu Komputer > Teknik Informatika
Depositing User: Psi Udinus
Date Deposited: 28 Jan 2015 17:05
Last Modified: 13 Oct 2015 15:05
URI: http://eprints.dinus.ac.id/id/eprint/14638

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