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DeepGPD: A Deep Learning Approach for Modeling Geospatio-Temporal Extreme Events

Tyler Wilson, Pang‐Ning Tan, Lifeng Luo

2022Proceedings of the AAAI Conference on Artificial Intelligence16 citationsDOIOpen Access PDF

Abstract

Geospatio-temporal data are pervasive across numerous application domains.These rich datasets can be harnessed to predict extreme events such as disease outbreaks, flooding, crime spikes, etc. However, since the extreme events are rare, predicting them is a hard problem. Statistical methods based on extreme value theory provide a systematic way for modeling the distribution of extreme values. In particular, the generalized Pareto distribution (GPD) is useful for modeling the distribution of excess values above a certain threshold. However, applying such methods to large-scale geospatio-temporal data is a challenge due to the difficulty in capturing the complex spatial relationships between extreme events at multiple locations. This paper presents a deep learning framework for long-term prediction of the distribution of extreme values at different locations. We highlight its computational challenges and present a novel framework that combines convolutional neural networks with deep set and GPD. We demonstrate the effectiveness of our approach on a real-world dataset for modeling extreme climate events.

Topics & Concepts

Extreme value theoryGeneralized Pareto distributionComputer scienceSet (abstract data type)Generalized extreme value distributionArtificial intelligenceConvolutional neural networkData miningMachine learningStatisticsMathematicsProgramming languageClimate variability and modelsEnergy Load and Power ForecastingHydrology and Drought Analysis
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