Hyperspectral Oceanic Remote Sensing With Adjacency Effects: From Spectral-Variability-Based Modeling To Performance Of Associated Blind Unmixing Methods

Y. Deville, Audrey Minghelli, X. Briottet, V. Serfaty, S. Brezini, Fatima Zohra Benhalouche, M. S. Karoui, M. Guillaume, X. Lenot, B. Lafrance, M. Chami, S. Jay
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引用次数: 1

Abstract

In a very recent paper, we introduced (i) a specific hyper-spectral mixing model for the sea bottom, based on a detailed physical analysis which includes the adjacency effect, and (ii) an associated unmixing method, which is not blind in the sense that it requires a prior estimation of various parameters of that mixing model. We here proceed much further, by first analytically showing that this model can be seen as a specific member of the general class of mixing models involving spectral variability. Therefore, we then process such data with the IP-NMF and UP-NMF blind unmixing methods that we recently proposed in other works to handle spectral variability. Such a variability especially occurs when sea depth significantly varies over the considered scene, and we show that IP-NMF and UP-NMF then yield significantly better pure spectra estimation than a classical method from the literature which was not designed to handle such a variability.
具有邻接效应的高光谱海洋遥感:从基于光谱变率的建模到相关盲解混合方法的性能
在最近的一篇论文中,我们介绍了(i)一种特定的海底高光谱混合模型,该模型基于详细的物理分析,其中包括邻接效应,以及(ii)一种相关的分解方法,该方法不是盲目的,因为它需要预先估计混合模型的各种参数。我们在这里更进一步,首先通过分析表明,该模型可以被视为涉及光谱变率的混合模型的一般类别的一个特定成员。因此,我们随后使用IP-NMF和UP-NMF盲解混方法处理这些数据,我们最近在其他工作中提出了这些方法来处理光谱变异性。这种变异性尤其发生在考虑的场景中,当海洋深度发生显著变化时,我们表明IP-NMF和UP-NMF产生的纯光谱估计明显优于文献中没有设计用于处理这种变异性的经典方法。
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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