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Learning a Cross-modality Anomaly Detector for Remote Sensing Imagery

Computer Vision and Pattern Recognition 2024-09-11 v2 Machine Learning Image and Video Processing

Abstract

Remote sensing anomaly detector can find the objects deviating from the background as potential targets for Earth monitoring. Given the diversity in earth anomaly types, designing a transferring model with cross-modality detection ability should be cost-effective and flexible to new earth observation sources and anomaly types. However, the current anomaly detectors aim to learn the certain background distribution, the trained model cannot be transferred to unseen images. Inspired by the fact that the deviation metric for score ranking is consistent and independent from the image distribution, this study exploits the learning target conversion from the varying background distribution to the consistent deviation metric. We theoretically prove that the large-margin condition in labeled samples ensures the transferring ability of learned deviation metric. To satisfy this condition, two large margin losses for pixel-level and feature-level deviation ranking are proposed respectively. Since the real anomalies are difficult to acquire, anomaly simulation strategies are designed to compute the model loss. With the large-margin learning for deviation metric, the trained model achieves cross-modality detection ability in five modalities including hyperspectral, visible light, synthetic aperture radar (SAR), infrared and low-light in zero-shot manner.

Keywords

Cite

@article{arxiv.2310.07511,
  title  = {Learning a Cross-modality Anomaly Detector for Remote Sensing Imagery},
  author = {Jingtao Li and Xinyu Wang and Hengwei Zhao and Liangpei Zhang and Yanfei Zhong},
  journal= {arXiv preprint arXiv:2310.07511},
  year   = {2024}
}

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Journal paper

R2 v1 2026-06-28T12:47:24.676Z