HPS-Net: Multi-Task Network for Medical Image Segmentation with Predictable Performance

HPS-Net: Multi-Task Network for Medical Image Segmentation with Predictable Performance

In recent years, medical image segmentation (MIS) has made a huge breakthrough due to the success of deep learning. However, the existing MIS algorithms still suffer from two types of uncertainties: (1) the uncertainty of the plausible segmentation hypotheses and (2) the uncertainty of segmentation...

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Autores principales: Xin Wei, Huan Wan, Fanghua Ye, Weidong Min
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
symmetrical structure
medical image
image segmentation
deep learning
CNNs
loss function
Mathematics
QA1-939
Acceso en línea:https://doaj.org/article/20909c15a6a84c349649bedfea3bb2aa
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Sumario:In recent years, medical image segmentation (MIS) has made a huge breakthrough due to the success of deep learning. However, the existing MIS algorithms still suffer from two types of uncertainties: (1) the uncertainty of the plausible segmentation hypotheses and (2) the uncertainty of segmentation performance. These two types of uncertainties affect the effectiveness of the MIS algorithm and then affect the reliability of medical diagnosis. Many studies have been done on the former but ignore the latter. Therefore, we proposed the hierarchical predictable segmentation network (HPS-Net), which consists of a new network structure, a new loss function, and a cooperative training mode. According to our knowledge, HPS-Net is the first network in the MIS area that can generate both the diverse segmentation hypotheses to avoid the uncertainty of the plausible segmentation hypotheses and the measure predictions about these hypotheses to avoid the uncertainty of segmentation performance. Extensive experiments were conducted on the LIDC-IDRI dataset and the ISIC2018 dataset. The results show that HPS-Net has the highest Dice score compared with the benchmark methods, which means it has the best segmentation performance. The results also confirmed that the proposed HPS-Net can effectively predict TNR and TPR.

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