1) geometric resolution
几何分辨力
2) geometric superresolution
几何超分辨
1.
CCD geometric superresolution method based on subpixel;
亚像元的CCD几何超分辨方法
3) naming and recognition of geometric figures
几何图形辨认能力
1.
The test to assess young children\'s composition of geometric figures in this study was adapted from the measure created by Clements and colleagues (Clements, Wilson & Sarama, 2004a), and the other test to examine young children\'s naming and recognition of geometric figures was developed by the investigator based on related studies.
本研究的目的是考查3-6岁儿童的几何图形组合能力的发展状况和年龄特点,以及几何图形组合能力与几何图形辨认能力之间的关系。
4) multi-resolution geometry compression
多分辨率几何压缩
1.
This paper proposes the concept of multi-resolution geometry compression for accelerating rendering speed, and a detailed implement method based on the ideas of vertices sequence and Haar wavelet.
提出了面向绘制加速的多分辨率几何压缩的概念,以及一种基于顶点排序和Haar小波思想的实现方法。
5) geometrical error and resolution
几何误差和分辨率
6) geometrical stress
几何应力
1.
In this paper, the fatigue characteristics of welded joints and components are analyzed, and the calculation methods of the fatigue characteristic are introduced, especially the method of geometrical stress is discussed.
分析了焊接件的疲劳特性 ,介绍了疲劳特性的计算方法 ,着重探讨了几何应力方法。
补充资料:高分辨电子显微镜(见高分辨电子显微术)
高分辨电子显微镜(见高分辨电子显微术)
high resolution electron microscope
高分辨电子显微镜high resolution eleetronmieroseope见高分辫电子显微术。
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