Hyperspectral imaging combines spectroscopy and digital imaging technology.
光谱成像组合了光谱技术和成像技术。
The application effect of the hyperspectral imaging system heavily relies on the signal to noise ratio.
高光谱成像系统的应用效果非常依赖仪器获取图像的信噪比。
As an image-spectrum merging technology, hyperspectral imaging has been used in battlefield reconnaissance rapidly.
超光谱成像是一种场景图谱合一的技术,在战场侦察中得到了迅速应用。
It combines daytime hyperspectral imaging technology, featuring high-resolution electro-optic sensors, with an airborne processing system to automatically detect and identify targets.
它复合了日光光谱成像技术,具有高分辨率光电传感器并带有机载处理系统能自动检测和识别目标。
Micro F-P cavity tunable filter, one of the Micro-opto-electro-mechanical devices, has been widely applied in the area of hyperspectral imaging, DWDM optical communication and self-adaptive optics.
微F-P腔可调谐滤波器主要运用于超光谱成像、DWDM光通信系统和自适应光学等系统中。
We particularly analyze the character of the Large Aperture Static Imaging Spectrometer (LASIS) hyperspectral interference images and give the inclusions.
论文详细分析了大孔径静态干涉成像光谱仪(Large Aperture StaticImagingSpectrometer, LASIS)高光谱干涉图像的特点,并得出了相关的结论。
Hyperspectral images can provide much more information than multispectral images do and can solve many problems which can not be solved by multispectral imaging technology.
高光谱图像可以获得比多光谱图像更丰富的信息,并使得许多原先用多光谱信息不能解决的问题现在可以得到解决。
Hyperspectral images can provide much more information than multispectral images do and can solve many problems which can not be solved by multispectral imaging technology.
高光谱图像可以获得比多光谱图像更丰富的信息,并使得许多原先用多光谱信息不能解决的问题现在可以得到解决。
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