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Summary: Performance Metrics
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Machine Learning Approaches for Predicting Seismic, Acoustic and Atmospheric Data
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- 1 Machine Learning Approaches for Atmospheric and Material Fracture Applications and their Uncertainty Quantification
- 2 My background
- 3 Why Machine Learning (ML) Approaches?
- 4 Why Uncertainty Quantification (UQ) in ML?
- 5 Outline for this presentation
- 6 Problem of Interest and Motivation
- 7 Description of the Data
- 8 Overview of K-Nearest Neighbors Approach
- 9 KNN Graphical Examples
- 10 Our Enhanced KNN-based Approach
- 11 The KNN-based Prediction
- 12 Performance Metrics Options the number of neighbors used
- 13 Figure of Merit in the Space (FMS)
- 14 Normalized Root Mean Squared Error (NRMSE)
- 15 Fraction of Data (FAC2)
- 16 Fractional Bias
- 17 Coefficient of Determination, Slope and Intercept
- 18 Summary: KNN Approach
- 19 Summary: Performance Metrics
- 20 Uncertainty Bounds for Multivariate Machine Learning Predictions on High-Strain Brittle Fracture [1]
- 21 Multivariate Neural Networks Model
- 22 Heteroscedastic Training Loss Function
- 23 Multivariate Heteroscedastic Approach