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Forest Fire Risk Prediction Based on Stacking Ensemble Learning for Yunnan Province of China

Yanzhi Li, Guohui Li, Kaifeng Wang, Zumin Wang, Yanqiu Chen

2023Fire35 citationsDOIOpen Access PDF

Abstract

Forest fire risk prediction is essential for building a forest fire defense system. Ensemble learning methods can avoid the problem of difficult model selection for disaster susceptibility prediction and can significantly improve modeling accuracy. This study introduces a stacking ensemble learning model for predicting forest fire risks in Yunnan Province by integrating various data types, such as meteorological, topographic, vegetation, and human activity factors. A total of 70,274 fire points and an equal number of randomly selected nonfire points were used to develop the model, with 70% of the data allocated for training and the remaining 30% for testing. The stacking model combined four diverse machine learning methods: random forest (RF), extreme gradient boosting (XGBoost), light gradient boosting machine (LightGBM), and multilayer perceptron (MLP). We evaluated the model’s predictive performance using metrics like accuracy, area under the characteristic curve (AUC), and fire density (FD). The results demonstrated that the stacking fusion model exhibited remarkable accuracy with an AUC of 0.970 on the test set, significantly surpassing the performance of individual machine learning models, which had AUC values ranging from 0.935 to 0.953. Furthermore, the stacking fusion model effectively captured the maximum fire density in extremely high susceptibility areas, demonstrating enhanced generalization capabilities.

Topics & Concepts

Gradient boostingRandom forestEnsemble learningBoosting (machine learning)StackingArtificial intelligenceMachine learningComputer scienceEnsemble forecastingGeneralizationAdaBoostTest setMathematicsSupport vector machineMathematical analysisPhysicsNuclear magnetic resonanceFire effects on ecosystemsLandslides and related hazardsFire Detection and Safety Systems