期刊
2022 IEEE INTERNATIONAL GEOSCIENCE AND REMOTE SENSING SYMPOSIUM (IGARSS 2022)
卷 -, 期 -, 页码 4859-4862出版社
IEEE
DOI: 10.1109/IGARSS46834.2022.9884691
关键词
Few-shot Land Cover Classification; Model-Agnostic Meta Learning; Sentinel-2; Participant Survey; Visual Photointerpretation; Human Perception
Learning to predict accurately from a few data samples is a challenging task in machine learning. While human vision performs better than deep learning approaches on few-shot learning with natural images, we argue that aerial and satellite images are more difficult for the human eye. Our study compares model-agnostic meta-learning algorithms with human participants on few-shot land cover classification using Sentinel-2 imagery. We find that the categorization of land cover from globally distributed regions is challenging for participants, who perform less accurately and with varying success rates compared to the MAML-trained model. This suggests that labeling land cover directly on Sentinel-2 imagery may not be optimal for tackling new land cover classification problems, and using a trained meta-learning model with a few labeled images could lead to more accurate and consistent solutions compared to manual labeling by multiple individuals.
Learning to predict accurately from a few data samples is a central challenge in modern data-hungry machine learning. On natural images, human vision typically outperforms deep learning approaches on few-shot learning. However, we hypothesize that aerial and satellite images are more challenging to the human eye. This applies particularly when the image resolution is comparatively low, as with the 10m ground sampling distance of Sentinel-2. In this study, we benchmark model-agnostic meta-learning (MAML) algorithms against human participants on few-shot land cover classification with Sentinel-2 imagery on the Sen12MS dataset. We find that categorization of land cover from globally distributed regions is a difficult task for the participants, who classified the given images less accurately than the MAML-trained model and with a highly variable success rate. This suggest that hand-labeling land cover directly on Sentinel-2 imagery is not optimal when tackling a new land cover classification problem. Labeling only a few images and employing a trained meta-learning model to this task may lead to more accurate and consistent solutions compared to hand labeling by multiple individuals.
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