用深度学习求解逆问题的稀疏安妮特

2020 IEEE 17th International Symposium on Biomedical Imaging Workshops (ISBI Workshops) Pub Date : 2020-04-01 DOI:10.1109/ISBIWorkshops50223.2020.9153362

D. Obmann, Linh V. Nguyen, Johannes Schwab, M. Haltmeier

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引用次数: 7

摘要

提出了一种求解逆问题的稀疏重构框架(aNETT)。与现有的基于线性稀疏化变换的稀疏重建技术相反，我们训练了一个自编码器网络D (E)，其中E作为一个非线性稀疏化变换，并最小化了一个由编码器系数的q-范数和到数据流形的距离惩罚组成的学习正则器的Tikhonov泛函。我们提出了一种基于底层图像类的样本集训练自编码器的策略，使自编码器独立于前向算子，并随后适应特定的前向模型。给出了稀疏视图CT的数值结果，清楚地证明了aNETT在后处理网络上的可行性、鲁棒性以及提高的泛化能力和稳定性。

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Sparse Anett For Solving Inverse Problems With Deep Learning

We propose a sparse reconstruction framework (aNETT) for solving inverse problems. Opposed to existing sparse reconstruction techniques that are based on linear sparsifying transforms, we train an autoencoder network D○E with E acting as a nonlinear sparsifying transform and minimize a Tikhonov functional with learned regularizer formed by the ℓq-norm of the encoder coefficients and a penalty for the distance to the data manifold. We propose a strategy for training an autoencoder based on a sample set of the underlying image class such that the autoencoder is independent of the forward operator and is subsequently adapted to the specific forward model. Numerical results are presented for sparse view CT, which clearly demonstrate the feasibility, robustness and the improved generalization capability and stability of aNETT over post-processing networks.

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2020 IEEE 17th International Symposium on Biomedical Imaging Workshops (ISBI Workshops)

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