The content discusses the challenges of discovering novel classes in the biomedical domain and introduces a novel approach using geometry-constrained probabilistic modeling. The method aims to resolve issues related to biased semantic representations and open space risk, ultimately improving the generalizability of learned embeddings for recognizing unseen concepts.
The author highlights the importance of incorporating geometric properties into representation learning to shape the embedding space effectively. By leveraging spectral graph-theoretic methods, the proposed framework estimates the number of potential novel classes in unlabeled data efficiently. Experimental results demonstrate superior performance compared to existing approaches across various biomedical scenarios.
Key components such as uniform proxies, base space bounding, open space dispersion, and structuring play crucial roles in enhancing novel class discovery. The ablation study confirms that each component contributes significantly to the overall effectiveness of the proposed method.
Visualizations showcase how incorporating geometric constraints impacts the layout of embedding space and improves semantic interpretations for identifying and clustering potential novel concepts. Overall, the proposed framework shows promising results in addressing challenges related to discovering novel biomedical concepts.
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by Jianan Fan,D... lúc arxiv.org 03-05-2024
https://arxiv.org/pdf/2403.01053.pdfYêu cầu sâu hơn