统计后处理提高了基追求去噪的性能

S. Chatterjee, D. Sundman, M. Skoglund
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引用次数: 5

摘要

对于压缩感知(CS),我们探索了贝叶斯线性模型的框架,以在存在测量噪声的情况下实现鲁棒重建性能。利用先验统计知识,我们开发了一种两阶段方法,使基于标准l1范数最小化的CS方法的性能得到改善。在两阶段框架中,我们在第一阶段使用标准基追踪去噪(BPDN)方法来估计高幅度信号分量的支持集,然后在第二阶段使用线性估计器来实现更好的CS重构。通过实验评估,我们表明使用新的基于两阶段的算法比直接使用标准BPDN方法具有更好的CS重建性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Statistical post-processing improves basis pursuit denoising performance
For compressive sensing (CS), we explore the framework of Bayesian linear models to achieve a robust reconstruction performance in the presence of measurement noise. Using a priori statistical knowledge, we develop a two stage method such that the performance of a standard l1 norm minimization based CS method improves. In the two stage framework, we use a standard basis pursuit denoising (BPDN) method in the first stage for estimating the support set of higher amplitude signal components and then use a linear estimator in the second stage for achieving better CS reconstruction. Through experimental evaluations, we show that the use of the new two stage based algorithm leads to a better CS reconstruction performance than the direct use of the standard BPDN method.
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