Synergizing Deep Learning and Biological Heuristics for Extreme Long-Tail White Blood Cell Classification
arXiv cs.CV / 3/18/2026
💬 OpinionIdeas & Deep AnalysisModels & Research
Key Points
- The authors propose a hybrid framework for rare-class generalization that combines a Pix2Pix-based restoration module for artifact removal, a Swin Transformer ensemble with MedSigLIP contrastive embeddings for robust representation learning, and a biologically-inspired refinement step using geometric spikiness and Mahalanobis-based morphological constraints to recover out-of-distribution predictions.
- The approach targets extreme long-tail distributions, class imbalance, and domain shift in automated white blood cell classification to prevent overfitting to dominant classes and improve performance on rare subtypes.
- On the WBCBench 2026 challenge, the method achieves a Macro-F1 of 0.77139 on the private leaderboard, demonstrating strong performance under severe imbalance.
- The work highlights the value of incorporating biological priors into deep learning for hematological image analysis, suggesting a productive synergy between domain knowledge and AI.
- The pipeline’s components—artifact removal, contrastive representation learning, and morphology-informed refinement—collectively enhance generalization to unseen distributions in medical imaging tasks.
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