Abstract
Multimodal MRI (magnetic resonance imaging) provides critical complementary information for accurate brain tumor segmentation. However, conventional methods struggle when certain modalities are missing due to issues like image quality, protocol inconsistencies, patient allergies, or financial constraints. To address this, we propose a robust single-modality parallel processing framework that achieves high segmentation accuracy even with incomplete modalities. Leveraging Hölder divergence and mutual information, our model maintains modality-specific features while dynamically adjusting network parameters based on available inputs. By using these divergence and information-based loss functions, the framework effectively quantifies discrepancies between predictions and ground-truth labels, resulting in consistently accurate segmentation. Extensive evaluations on the BraTS 2018 and BraTS 2020 datasets demonstrate superior performance over existing methods in handling missing modalities, with ablation studies validating each component's contribution to the framework.
| Original language | English |
|---|---|
| Pages (from-to) | 939-954 |
| Number of pages | 16 |
| Journal | IEEE/CAA Journal of Automatica Sinica |
| Volume | 13 |
| Issue number | 4 |
| DOIs | |
| Publication status | Published - 1 Apr 2026 |
| Externally published | Yes |
Keywords
- Brain-tumor segmentation
- divergence learning
- knowledge distillation
- missing modality learning
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