Centrala begrepp
This paper proposes a novel "label sharing" framework for training a single multi-channel neural network model to perform multi-label segmentation across multiple medical imaging datasets, achieving comparable performance to individually trained models while being more parameter-efficient and enabling incremental learning of new tasks.
Sammanfattning
Bibliographic Information:
Anand, D., Das, B., Dangeti, V., Jerald, A., Mullick, R., Patil, U., Sharma, P., & Sudhakar, P. (2024). Label Sharing Incremental Learning Framework for Independent Multi-Label Segmentation Tasks. In MICCAI Workshop on Advancing Data Solutions in Medical Imaging AI 2024.
Research Objective:
This paper aims to address the limitations of existing multi-task segmentation models in handling new tasks and incremental learning by proposing a novel "label sharing" framework.
Methodology:
The proposed framework involves grouping labels across different tasks based on average relative sizes of the segmentation masks, assigning a shared abstract label to each group, and training a single multi-channel neural network model on the combined datasets with shared labels. This approach was evaluated on two medical image segmentation tasks: anatomy segmentation in 2D image slices and extremity structure localization in 2D projections. The performance of the proposed method was compared with individual models for each task, a merged multi-channel model, and a network model with task-specific filters (DoD-Net).
Key Findings:
- The label sharing framework achieved comparable performance to individually trained models in most cases, demonstrating its efficacy in simplifying the network while maintaining accuracy.
- The proposed method outperformed the multi-channel and DoD-Net approaches, highlighting its effectiveness in handling multiple tasks with a single model.
- Incremental training for new tasks did not compromise the performance of the label sharing framework, showcasing its ability to learn new tasks without catastrophic forgetting.
Main Conclusions:
The label sharing framework provides a simple yet effective approach for training a single model on multiple independent multi-label segmentation tasks. It offers advantages in terms of parameter efficiency, incremental learning capability, and competitive performance compared to alternative methods.
Significance:
This research contributes to the field of medical image segmentation by proposing a novel framework that simplifies multi-task learning and enables efficient model deployment for a wide range of segmentation tasks.
Limitations and Future Research:
Future work includes exploring automatic generation of shared labels and extending the framework to other imaging modalities and multi-modal settings.
Statistik
The label sharing method consistently outperforms other approaches and closely approaches the performance of individually trained models in most cases.
The label sharing method maintains strong performance across both previous and new tasks, closely matching the best performance achieved by individual models.
The label sharing method consistently outperforms other approaches, except for coronal projection of the knee.
Citat
"This work proposes a novel “label sharing” framework where a shared common label space is constructed and each of the individual label sets are systematically mapped to the common labels."
"This eliminates the need for task specific adaptations in network architectures and also results in parameter and data efficient models."
"Furthermore, label sharing framework is naturally amenable for incremental learning where segmentations for new datasets can be easily learnt."