An Overview of Hyperspectral Remote Sensing and its applications in various Disciplines

A. Shukla, R. Kot
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引用次数: 26

Abstract

Recent advances in remote sensing and geographic information has opened new directions for the development of hyperspectral sensors. Hyperspectral remote sensing, also known as imaging spectroscopy is a new technology. Hyperspectral imaging is currently being investigated by researchers and scientists for the detection and identification of vegetation, minerals, different objects and background. Hyperspectral remote sensing combines imaging and spectroscopy in a single system which often includes large data sets and requires new processing methods. Hyperspectral data sets are generally made of about 100 to 200 spectral bands of relatively narrow bandwidths (5-10 nm), whereas, multispectral data sets are usually composed of about 5 to 10 bands of relatively large bandwidths (70-400 nm). Hyperspectral imagery is collected as a data cube with spatial information collected in the X-Y plane, and spectral information represented in the Z-direction. Hyperspectral remote sensing is applicable in many different disciplines. It was originally developed for mining and geology; it has now spread into fields such as agriculture and forestry, ecology, coastal zone management, geology and mineral exploration. This paper presents an overview of hyperspectral imaging, data exploration and analysis, applications in various disciplines, advantages and disadvantages and future aspects of the technique.
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高光谱遥感技术及其在各学科中的应用综述
近年来遥感和地理信息技术的发展为高光谱传感器的发展开辟了新的方向。高光谱遥感又称成像光谱,是一门新兴的技术。目前,研究人员和科学家正在研究用于探测和识别植被、矿物、不同物体和背景的高光谱成像。高光谱遥感将成像和光谱学结合在一个系统中,该系统通常包含大量数据集,需要新的处理方法。高光谱数据集一般由大约100 ~ 200个带宽相对较窄的波段(5 ~ 10 nm)组成,而多光谱数据集通常由大约5 ~ 10个带宽相对较大的波段(70 ~ 400 nm)组成。高光谱影像以数据立方体的形式采集,空间信息采集在X-Y平面,光谱信息表示在z方向。高光谱遥感可应用于许多不同的学科。它最初是为采矿和地质学开发的;目前已扩展到农林、生态、海岸带管理、地质矿产勘查等领域。本文综述了高光谱成像技术、数据挖掘与分析、在各学科中的应用、该技术的优缺点和未来发展方向。
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