The quantitative evaluation of application of hyperspectral data based on multi-parameters joint optimization

In order to evaluate the mineral identification of the hyperspectral data and make a trade-off of the imaging system parameters, a quantitative evaluation approach based on the multi-parameters joint optimization is proposed for the hyperspectral remote sensing. In the proposed approach, the mineral...

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Bibliographic Details
Published in:Science China. Technological sciences 2014-11, Vol.57 (11), p.2249-2255
Main Authors: Li, Na, Huang, Ping, Zhao, HuiJie, Jia, GuoRui
Format: Article
Language:English
Subjects:
Engineering
Imaging
Mathematical analysis
Mathematical models
Minerals
Optimization
Quantitative evaluation
Regression
Tradeoffs
定量关系
应用
成像系统
矿物识别
联合优化
评价
高光谱数据
高光谱遥感
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Summary:In order to evaluate the mineral identification of the hyperspectral data and make a trade-off of the imaging system parameters, a quantitative evaluation approach based on the multi-parameters joint optimization is proposed for the hyperspectral remote sensing. In the proposed approach, the mineral identification is defined as the number of the minerals identified and the key imaging parameters employed include ground sample distance (GSD) and spectral resolution (SR). Certain limitations are found among parameters that are used for analyzing the imaging processes. The constraints include the industrial manufactur- ing level, application requirements and the quantitative relationship among the GSD, the SR and the signal-to-noise ratio (SNR). Regression analysis is used to investigate the quantitative relationship between the mineral identification and the key imaging system parameters. Then, an optimization model for the trade-off study is established by combining the regression equation with the constraints. The airborne hyperspectral image collected by Hymap is applied to evaluate the performance of the proposed approach. The experimental results reveal that the approach can achieve the evaluation of the mineral identifica- tion and the trade-off of key imaging system parameters. The error of the prediction is within one kind of mineral.
ISSN:1674-7321
1869-1900
DOI:10.1007/s11431-014-5689-8