Multi-organ segmentation enables organ evaluation, accounts the relationship between multiple organs, and facilitates accurate diagnosis and treatment decisions. However, only few models can perform segmentation accurately because of the lack of datasets and computational resources. On AMOS2022 challenge, which is a large-scale, clinical, and diverse abdominal multiorgan segmentation benchmark, we trained a 3D-UNet model with large batch and patch sizes using multi-GPU distributed training. Segmentation performance tended to increase for models with large batch and patch sizes compared with the baseline settings. The accuracy was further improved by using ensemble models that were trained with different settings. These results provide a reference for parameter selection in organ segmentation.
翻译:多机分解有助于器官评价,说明多个器官之间的关系,并有利于准确的诊断和治疗决定。然而,由于缺乏数据集和计算资源,只有少数模型能够准确进行分解。AMOS 2022 挑战是一个大型、临床和多种腹部多机分解基准,我们利用多GPU分布式培训,对3D-UNet模型进行了大批量和补丁尺寸的培训。与基线设置相比,大批量和补丁尺寸模型的分解性能往往会增加。通过使用经过不同环境培训的混合模型进一步提高了准确性。这些结果为器官分解过程中的参数选择提供了参考。
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