Hyperspectral Unmixing Using L2,1 Norm and Total Variation for Material Detection on Earth’s Surface

2019 16th International Conference on Quality in Research (QIR): International Symposium on Electrical and Computer Engineering Pub Date : 2019-07-01 DOI:10.1109/QIR.2019.8898270

Danan Arya Pradana, Icha Fatwasauri, M. Rizkinia

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Abstract

Hyperspectral imaging is often used to determine what components present in a scene of the earth’s surface. Each pixel in a hyperspectral image may contain of a pure material or a mixture of multiple materials due to the limitation of spatial resolution. To determine the abundance of each component in a pixel, a process called hyperspectral unmixing was introduced. In hyperspectral unmixing, each pixel in an image is compared to a spectral library to determine material types and their proportion in the pixel. In this study, we construct an algorithm to optimize the hyperspectral unmixing problem using L2,1 norm and Total Variation regularization to reduce reconstruction error. Specifically, our research aims to improve the unmixing results by applying L2,1 norm to impose collaborative sparsity on all pixels in the image and adding Total Variation regularization to improve the smoothness of resulting image. Our experimental results with both synthetic and real hyperspectral data show improvements in terms of lower RMSE and higher SSIM than those of other methods.

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利用L2、1范数和总变分进行地表物质探测的高光谱解混

高光谱成像通常用于确定地球表面场景中存在的成分。由于空间分辨率的限制，高光谱图像中的每个像素可能包含纯材料或多种材料的混合物。为了确定像素中每个成分的丰度，引入了一种称为高光谱解混的过程。在高光谱解混中，将图像中的每个像素与光谱库进行比较，以确定材料类型及其在像素中的比例。在本研究中，我们构建了一种利用L2、1范数和全变分正则化来优化高光谱解混问题的算法，以减少重构误差。具体而言，我们的研究旨在通过使用L2,1范数对图像中的所有像素施加协作稀疏性，并添加Total Variation正则化来提高结果图像的平滑性，从而改善解混结果。我们在合成和真实高光谱数据上的实验结果表明，与其他方法相比，我们在降低RMSE和提高SSIM方面都有所改进。

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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来源期刊

2019 16th International Conference on Quality in Research (QIR): International Symposium on Electrical and Computer Engineering

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