1) Research on Microscopic Image Fusion
显微图像融合研究
2) microscopic image fusion
显微图像融合
1.
Microscopic image fusion is used to produce a completely clear image by fusing the registered images of the same scene with different focus, which are under the same imaging conditions.
这个问题可以通过显微图像融合来解决。
5) micro research
显微研究
1.
In order to clarify whether it is Pealius mori(Takahashi) or Be- misia myricae in Panxi area,the authors have conducted the micro research to its shape and discovered that it is Pealius mori (Takahashi) in this area.
桑粉虱Pealius mori(Takahashi)和杨梅粉虱Bemisia myricae Kuwana的一般外形特征非常相似极易混淆,为了弄清攀西地区发生的主要种类究竟是杨梅粉虱还是桑粉虱我们对其形态进行了显微研究。
6) microscope image
显微图像
1.
Multiracial analyses of film microscope image based on wavelet transform;
基于小波变换的薄膜显微图像多重分形分析
2.
Algorithm of large-scale microscope images mosaicing;
大规模显微图像拼接算法
3.
In this paper the multifractal spectrum is calculated by multigray probability measures of the microscope image of semicontinuous Ag nanoparticle films.
在解决实际问题中多重分形谱主要用来描述物理量不均匀的随机概率分布,通过对半连续Ag纳米薄膜显微图像结构形貌的分析和处理,以及通过薄膜显微图像多灰度概率测度进行多重分形谱分析,用多重分形谱描述随薄膜厚度变化的Ag颗粒的空间分布的不均匀性。
补充资料:显微
1.显着和隐微。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条