Generating a synthetic diffusion tensor dataset

18th IEEE Symposium on Computer-Based Medical Systems (CBMS'05) Pub Date : 2005-06-23 DOI:10.1109/CBMS.2005.58
Ørjan Bergmann, A. Lundervold, T. Steihaug
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引用次数: 9

Abstract

During the last years, many techniques for de-noising, segmentation and fiber-tracking have been applied to diffusion tensor MR image data (DTI) from human and animal brains. However, evaluating such methods may be difficult on these data since there is no gold standard regarding the true geometry of the brain anatomy or fiber bundles reconstructed in each particular case. In order to study, validate and compare various de-noising and fiber-tracking methods, there is a need for a (mathematical) phantom consisting of semi-realistic images with well-known properties. In this work we generate such a phantom and provide a description of the calculation process all the way up to voxel-wise diffusion tensor visualization.
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生成一个合成扩散张量数据集
在过去的几年里,许多去噪、分割和纤维跟踪技术被应用于来自人类和动物大脑的弥散张量MR图像数据(DTI)。然而,评估这些方法在这些数据上可能是困难的,因为没有关于大脑解剖的真实几何形状或在每个特定情况下重建的纤维束的金标准。为了研究、验证和比较各种去噪和光纤跟踪方法,需要一个由具有已知特性的半真实图像组成的(数学)幻像。在这项工作中,我们生成了这样一个幻像,并提供了计算过程的描述,一直到体素扩散张量可视化。
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18th IEEE Symposium on Computer-Based Medical Systems (CBMS'05)
18th IEEE Symposium on Computer-Based Medical Systems (CBMS'05)
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