Importance of Aligning Training Strategy with Evaluation for Diffusion Models in 3D Multiclass Segmentation
Recently, denoising diffusion probabilistic models (DDPM) have been applied to image segmentation by generating segmentation masks conditioned on images, while the applications were mainly limited to 2D networks without exploiting potential benefits from the 3D formulation. In this work, for the first time, DDPMs are used for 3D multiclass image segmentation. We make three key contributions that all focus on aligning the training strategy with the evaluation methodology, and improving efficiency. Firstly, the model predicts segmentation masks instead of sampled noise and is optimised directly via Dice loss. Secondly, the predicted mask in the previous time step is recycled to generate noise-corrupted masks to reduce information leakage. Finally, the diffusion process during training was reduced to five steps, the same as the evaluation. Through studies on two large multiclass data sets (prostate MR and abdominal CT), we demonstrated significantly improved performance compared to existing DDPMs, and reached competitive performance with non-diffusion segmentation models, based on U-net, within the same compute budget. The JAX-based diffusion framework has been released on https://github.com/mathpluscode/ImgX-DiffSeg.
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