本文详细介绍了小波变换理论及其在图像处理方面的应用,分别提出了几何角度和灰度角度的两种不同的图像镶嵌算法,并提出两种不同的边界重构方式。
This paper introduces the theory about wavelet and the applications on image processing particularly and gives two image merging ideas and gives two different boundary reconstruction methods.
本文主要考虑用探测法重构两个不同类型散射体边界的数值实现。
This paper considers the reconstruction of two obstacles with different types of boundary by probe method.
提出并分析了适合于多面体模型的边界几何求交方法,并进一步给出了融入模型重构的综合算法。
Then it analyzed the boundary geometrical intersection method suitable for a polyhedral model, and further presented a hybrid algorithm that integrates model reconstruction.
“封装字段”使用逗号作为字段之间的边界,并对与光标位于同一行且距离光标最近的某个字段启动重构。
Encapsulate field USES the comma as a boundary between fields, and initiates refactoring on the field that is nearest the cursor and on the same line as the cursor.
本文用球函数展开散射场,结合刚性边界条件导出了刚性目标的重构公式,并利用该公式重构了刚性球和椭球的形状。
By spherical function expansion of the scattered sound field in conjunction with rigid boundary conditions, formulas for reconstructing the shapes of rigid scattering objects are derived.
实践表明,该算法既能准确提取边界形状的特征关键点,又保证了重构后曲面的光滑规整。
It is proved this algorithm can not only extract the key points which can represent border shape, but also guarantee the reconstructed model have smooth surfaces.
同时提出了基于该滤波器进行数据重构时的边界延拓方法。
Boundary extension method for data reconstruction based on this filter is also proposed.
但由于目前在MAP算法中普遍采用的是平滑型图像先验模型,导致重构出来的图像边界不明锐,一些细节不清晰。
However, due to the use of smooth prior image model in MAP, the reconstructed edges and some image details are blurred.
该片层通过禁用跨片-边界的所有形式的预测、重叠和环形-滤波来提供解码和重构的独立性。
The slice layer provides decoding and reconstruction independence by disabling all forms of prediction, overlap and loop-filtering across slice-boundaries.
该算法在原有AMLE算法的基础上,保留图像水平集的边界数据,采用逐层处理方法实现图像重构。
On the basis of existing AMLE algorithm, this algorithm saves the bound data of image level sets and uses the method of processing scale by scale to reconstruct image.
研究了基于ICT切片图形三维重构的轮廓边界配准技术。
The edge-matching technique of 3D reconstruction based on industrial computerized tomography (ICT) slicing images was researched.
实验表明,该算法能很好地提取出孔洞内边界以及开区域外边界,为带孔洞点云数据的曲面重构奠定了基础。
The experiment results illustrate that the improved algorithm can extract the boundary of hole and open area, and it makes preparation for the surface reconstruction.
实验表明,该算法能很好地提取出孔洞内边界以及开区域外边界,为带孔洞点云数据的曲面重构奠定了基础。
The experiment results illustrate that the improved algorithm can extract the boundary of hole and open area, and it makes preparation for the surface reconstruction.
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