Reducing noise in hyperspectal data — A nonlinear data series analysis approach

2009 First Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing Pub Date : 2009-10-16 DOI:10.1109/WHISPERS.2009.5289014

D. Goodenough, T. Han

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引用次数: 11

Abstract

Hyperspectral data are subject to a variety of noise sources associated with the physical processes involved during data acquisition, which distort signal statistical properties and limit the applications of hyperspectral data for information extraction. Noise reduction is, therefore, a prerequisite for many hyperspectral data applications based on classification, target identification, and spectral unmixing. Studies have found that hyperspectral data are more complicated than realizations of linear stochastic processes, upon which many hyperspectral noise reduction algorithms are based. The noise in hyperspectral data may be non-Gaussian and signal dependent. Moreover, as demoustrated in our previous work, hyperspectral data exhibit apparent nonlinear characteristics, which suggests that the noise may exist in broad-band in the frequency domain. An algorithm is introduced in this paper with the intention to improve the noise reduction for hyperspectral data. The effectiveness of the algorithm is evaluated using multiple metrics focusing on both noise reduction and spectral shape preservation.

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降低高光谱数据中的噪声。非线性数据序列分析方法

在数据采集过程中，高光谱数据受到与物理过程相关的各种噪声源的影响，这些噪声源扭曲了信号的统计特性，限制了高光谱数据在信息提取中的应用。因此，降噪是许多基于分类、目标识别和光谱分解的高光谱数据应用的先决条件。研究发现，高光谱数据比线性随机过程的实现更为复杂，而线性随机过程是许多高光谱降噪算法的基础。高光谱数据中的噪声可能是非高斯和信号相关的。此外，正如我们之前的工作所证明的那样，高光谱数据表现出明显的非线性特征，这表明噪声可能存在于频域的宽带中。本文提出了一种提高高光谱数据降噪效果的算法。该算法的有效性评估使用多个指标侧重于降噪和频谱形状保持。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2009 First Workshop on Hyperspectral Image and Signal Processing: Evolution in Remote Sensing

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