试制了一台基于迈克耳逊干涉仪的空间调制型干涉成像光谱仪原理样机。
A spatial modulation imaging spectrometer based on the Michelson interferometer is trial-developed successfully.
从图像压缩的角度分析了大孔径静态干涉成像光谱仪成像原理,并提出了一种新的遥感多光谱图像压缩方案。
A new compression scheme of interferential multispectral images is proposed based on the analyses of large aperture static imaging spectrometry.
时-空联合调制型干涉成像光谱仪获取的像面干涉图是带有干涉条纹的二维空间图像,具有对姿态变化敏感的特点。
The spatio-temporally modulated imaging Fourier transform spectrometers obtain two-dimensional spatial images modulated by interference pattern, and are sensitive to the change of attitude.
本文介绍了一种新型空间调制干涉成像光谱仪原理,并与具有代表性的静态迈克尔逊干涉仪的光通量进行了比较,说明它具有高通量、大视场的优点。
A novel spatially modulated imaging interferometry is introduced. The performance of super throughput and wide field of view are discussed, compared with the stationary Michelson Spectrometer.
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。
We particularly analyze the character of the Large Aperture Static Imaging Spectrometer (LASIS) hyperspectral interference images and give the inclusions.
提出了一种基于分波前干涉结构的全反射式高分辨率傅里叶变换成像光谱仪。
We present an all-reflective Fourier transform imaging spectrometer (FTIS) with high resolution based on the principle of wavefront-splitting interference.
作为下一代成像光谱仪,干涉光谱仪已经受到普遍关注。
As one of the next generation imaging spectrometers, interferential spectrometer has been paid much attention.
提出了一种干涉型计算层析成像光谱仪(CTII)原理及实现方法。
A new kind of imaging spectrometer, the computed_tomography imaging interferometer (CTII) is proposed.
提出了一种干涉型计算层析成像光谱仪(CTII)原理及实现方法。
A new kind of imaging spectrometer, the computed_tomography imaging interferometer (CTII) is proposed.
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