The study introduces the IDAL-FIM framework to improve the interpretability of deep active learning for flood inundation mapping using multi-spectral satellite imagery. The key highlights are:
The IDAL-FIM framework consists of five stages: 1) satellite image collection and data splitting, 2) deep learning model training, 3) model evaluation, 4) acquisition function-based data selection, and 5) visualization of class ambiguity indices.
Five acquisition functions are evaluated - random, entropy, margin, BALD, and K-means. The results show that the margin and entropy acquisition functions outperform the random baseline, achieving comparable performance to a model trained on the entire dataset.
Two class ambiguity indices are proposed - Boundary Pixel Ratio (BPR) and Mahalanobis Distance for Flood-segmentation (MDF). The study demonstrates a statistically significant correlation between these indices and the scores of uncertainty-based acquisition functions, enabling interpretation of the deep active learning behavior.
Visualization of the two-dimensional density plots of selected data points illustrates the characteristics and operation of deep active learning in the context of flood mapping.
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by Hyunho Lee,W... om arxiv.org 05-01-2024
https://arxiv.org/pdf/2404.19043.pdfDiepere vragen