核心概念
PRISM is a promptable and robust interactive segmentation model that accepts various visual prompts, including points, boxes, and scribbles, to achieve precise segmentation of 3D medical images through iterative learning and confidence-based selection.
摘要
The paper presents PRISM, a Promptable and Robust Interactive Segmentation Model, for 3D medical image segmentation. PRISM is designed with four key principles to achieve robustness:
- Iterative learning: The model produces segmentations by using visual prompts from previous iterations to achieve progressive improvement.
- Confidence learning: PRISM employs multiple segmentation heads per input image, each generating a continuous map and a confidence score to optimize predictions.
- Corrective learning: Following each segmentation iteration, PRISM employs a shallow corrective refinement network to reassign mislabeled voxels.
- Hybrid design: PRISM integrates hybrid encoders to better capture both the local and global information.
PRISM accepts various visual prompts, including points, boxes, and scribbles, as sparse prompts, as well as masks as dense prompts. The authors evaluate PRISM on four public tumor datasets, including tumors in the colon, pancreas, liver, and kidney, where anatomical differences among individuals and ambiguous boundaries are present. Comprehensive validation is performed against state-of-the-art automatic and interactive methods, and PRISM significantly outperforms all of them, achieving results close to human-level performance.
統計資料
PRISM generates multiple segmentation masks per input image, each with a confidence score, to increase the robustness of the model.
The corrective refinement network takes the selected segmentation mask and the input image, along with cumulative positive and negative prompt maps, to refine the final segmentation.
The authors use the Dice score and normalized surface Dice (NSD) as evaluation metrics.
引述
"PRISM accepts various visual prompts, including points, boxes, and scribbles as sparse prompts, as well as masks as dense prompts."
"PRISM is designed with four principles to achieve robustness: (1) Iterative learning, (2) Confidence learning, (3) Corrective learning, and (4) Hybrid design."
"Comprehensive validation of PRISM is conducted using four public datasets for tumor segmentation in the colon, pancreas, liver, and kidney, highlighting challenges caused by anatomical variations and ambiguous boundaries in accurate tumor identification."