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使用GIRAF加速二维红外光谱并保持线形。

Accelerating two-dimensional infrared spectroscopy while preserving lineshapes using GIRAF.

作者信息

Bhattacharya Ipshita, Humston Jonathan J, Cheatum Christopher M, Jacob Mathews

出版信息

Opt Lett. 2017 Nov 15;42(22):4573-4576. doi: 10.1364/OL.42.004573.

DOI:10.1364/OL.42.004573
PMID:29140315
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5817635/
Abstract

We introduce a computationally efficient structured low-rank algorithm for the reconstruction of two-dimensional infrared (2D IR) spectroscopic data from few measurements. The signal is modeled as a combination of exponential lineshapes that are annihilated by appropriately chosen filters. The annihilation relations result in a low-rank constraint on a Toeplitz matrix constructed from signal samples, which is exploited to recover the unknown signal samples. Quantitative and qualitative studies on simulated and experimental data demonstrate that the algorithm outperforms the discrete compressed sensing algorithm, both in uniform and non-uniform sampling settings.

摘要

我们提出了一种计算效率高的结构化低秩算法,用于从少量测量值重建二维红外(2D IR)光谱数据。该信号被建模为指数线形的组合,这些线形可通过适当选择的滤波器消除。消除关系导致对由信号样本构建的托普利兹矩阵产生低秩约束,利用该约束来恢复未知信号样本。对模拟数据和实验数据的定量和定性研究表明,在均匀和非均匀采样设置下,该算法均优于离散压缩感知算法。

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