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Learning with Weak Annotations for Robust Maritime Obstacle Detection.

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Summary
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A new scaffolding learning regime (SLR) uses weak annotations to train maritime obstacle detection, significantly reducing labeling effort. This method matches or exceeds the performance of models trained with extensive manual labeling.

Keywords:
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Area of Science:

  • Computer Vision
  • Autonomous Systems
  • Machine Learning

Background:

  • Maritime obstacle detection is crucial for autonomous navigation safety.
  • Current methods rely on deep segmentation networks trained on large, expensively labeled datasets.
  • Per-pixel ground truth labeling is a significant bottleneck.

Purpose of the Study:

  • To introduce a novel scaffolding learning regime (SLR) for maritime obstacle detection.
  • To reduce the labor-intensive and costly ground truth labeling effort.
  • To train segmentation-based networks using weak annotations.

Main Methods:

  • Leveraging weak annotations: water edges, horizon location, and obstacle bounding boxes.
  • Training an initial model with weak annotations.
  • Alternating between re-estimating segmentation pseudo-labels and network parameter refinement.
  • Reducing annotation effort by a factor of twenty.

Main Results:

  • Maritime obstacle segmentation networks trained with SLR and weak annotations outperform those trained with dense labels.
  • SLR achieves comparable or superior accuracy to traditional methods.
  • Enhanced domain generalization capabilities were observed.

Conclusions:

  • Scaffolding learning regime (SLR) offers a highly effective alternative to dense labeling for maritime obstacle detection.
  • SLR significantly reduces annotation costs while improving model performance and generalization.
  • The approach facilitates domain adaptation with minimal manual annotation.