基于wasserstein的投影及其在逆问题中的应用

IF 1.9 Q1 MATHEMATICS, APPLIED SIAM journal on mathematics of data science Pub Date : 2022-05-05 DOI:10.1137/20m1376790

Howard Heaton, Samy Wu Fung, A. Lin, S. Osher, W. Yin

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引用次数: 12

摘要

．逆问题包括从噪声测量集合中恢复信号。这些通常被视为优化问题，使用经典方法使用数据保真度项和稳定恢复的解析正则化器。最近的即插即用(PnP)工作建议用数据驱动的去噪器取代优化方法中解析正则化的算子。这些方案获得了最先进的结果，但以有限的理论保证为代价。为了弥补这一差距，我们提出了一种新的算法，该算法从真实数据的流形中获取样本作为输入，并将投影算子的近似值输出到该流形上。在标准假设下，我们证明了该算法生成一个学习算子，称为Wasserstein-based投影(WP)，它以高概率逼近真实投影。因此，WPs可以以与PnP相同的方式插入到优化方法中，但现在有了理论上的保证。提供的数值例子表明，WPs获得了无监督PnP信号恢复的最新结果。1

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Wasserstein-Based Projections with Applications to Inverse Problems

. Inverse problems consist of recovering a signal from a collection of noisy measurements. These are typically cast as optimization problems, with classic approaches using a data ﬁdelity term and an analytic regularizer that stabilizes recovery. Recent Plug-and-Play (PnP) works propose replacing the operator for analytic regularization in optimization methods by a data-driven denoiser. These schemes obtain state of the art results, but at the cost of limited theoretical guarantees. To bridge this gap, we present a new algorithm that takes samples from the manifold of true data as input and outputs an approximation of the projection operator onto this manifold. Under standard assumptions, we prove this algorithm generates a learned operator, called Wasserstein-based projection (WP), that approximates the true projection with high probability. Thus, WPs can be inserted into optimization methods in the same manner as PnP, but now with theoretical guarantees. Provided numerical examples show WPs obtain state of the art results for unsupervised PnP signal recovery. 1

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SIAM journal on mathematics of data science

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