Spectral band selection for visible-near infrared remote sensing: spectral-spatial resolution tradeoffs

Price J.C.

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Spectral band selection for visible-near infrared remote sensing: spectral-spatial resolution tradeoffs

机译：可见-近红外遥感的光谱带选择：光谱空间分辨率的权衡

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Recent technological developments permit improved instrumentation for surveillance and resource monitoring, but tradeoffs of spectral resolution and number of spectral bands versus spatial resolution and measurement precision must be considered. A band selection procedure is applied to high spectral resolution (0.01 /spl mu//m) aircraft sensor imagery representing the visible and near-infrared wavelengths (0.4-2.5 /spl mu/m). Approximately 30-40 spectral bands characterize virtually all the information (variability) in the data, with the precise number depending on issues of data interpretation. This suggests that lower spectral resolution and higher spatial resolution are preferable to the reverse. Further study is needed to evaluate the significance of spectral bands having very low amplitude variability.

机译：最近的技术发展允许改进用于监视和资源监视的仪器，但是必须考虑光谱分辨率和光谱带数量与空间分辨率和测量精度之间的权衡。将波段选择过程应用于代表可见光和近红外波长（0.4-2.5 / spl mu / m）的高光谱分辨率（0.01 / spl mu // m）飞机传感器图像。大约30-40个光谱带几乎表征了数据中的所有信息（可变性），准确的数量取决于数据解释的问题。这表明较低的光谱分辨率和较高的空间分辨率优于相反的结果。需要进一步的研究来评估具有非常低幅度变化的频谱带的重要性。

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《IEEE Transactions on Geoscience and Remote Sensing》 |1997年第5期|P.1277-1285|共9页
作者
Price J.C.;
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正文语种 eng
中图分类无线电电子学、电信技术;
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机译：城市材料的可见 - 近红外（VNIR）和短波红外（sWIR）光谱变化。

Spectral band selection for visible-near infrared remote sensing: spectral-spatial resolution tradeoffs

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