1) odd mapplng
奇映像
2) image
[英]['ɪmɪdʒ] [美]['ɪmɪdʒ]
映像
1.
Design and Implementation of Image Based Cluster Deployment System;
基于映像的集群部署系统设计与实现
2.
This paper is focus on analyzing the difference of several images and their different loaded process for VxWorks.
着重对VxWorks的几种映像进行了区分,并对各自的装载过程进行了分析。
3.
d boson subspace is given and compared with the result of the exactDyson boson image.
d玻色子空间中的近似表示,并与精确的Dyson玻色子映像结果作一比较。
3) mapping
[英]['mæpiŋ] [美]['mæpɪŋ]
映像
1.
In this paper,the new Theorems are presented to prove some sufficient and necessary condition of Ishikawa iterative sequence with error member for Lipschitz hemi-contraction mapping in Hilbert space converging to the fixed point.
本文给出了Hilbert空间上的Lipschitz半压缩映像的具有误差项的Ishikawa迭代序列收敛于不动点的充分必要条件。
2.
The relative result of Jurgen schu is extended to a uniformly convex Banach space, and the convergence of iterative sequence in an uniformly convex Banach space for asymptotically nonexpanstive mapping is proved by Liu-Qi-hou and Li-Xia,T is asymptotically nonexpanstive mapping with sequence {Kn} in a bounded closed convex subset C of uniformly convex Banach space .
关于一致凸Banach空间中渐近非扩张映像的迭代收敛定理,刘启厚等推广了Jurgen schu的结果。
3.
The convergence theorm of Ishikawa iterative for asymptotically non-expansitve mapping in a Hilbert space was proved.
Hilbert空间中渐近非扩张映像的 Ishikawa迭代的收敛定理已被证明 ,后又被推广到一致凸 Ba-nach空间 ,证明了有界闭凸集上渐近非扩张映像的 Ishikawa迭代的收敛定理 。
4) reflection
[英][rɪ'flekʃn] [美][rɪ'flɛkʃən]
映像
1.
Then it describes how AOP is put into practice with reflection and meta-object programming in the Student Courses Registration and Management System.
文中介绍了AOP的基本思想,通过学生课程注册管理系统重点叙述映像和元程序设计是如何实现AOP,指出映像和元程序设计实现AOP的优点和不足。
5) singularities of C ∞ mapping
映射奇点
6) singular mapping
奇异映射
补充资料:映像清晰度、投影清晰度
分子式:
CAS号:
性质:又称映像清晰度、投影清晰度。反映固体表面平整程度的相对性物理量,经常用于表征金属、塑料制品的表观涂装质量,用Dorigon鲜映度测定仪测定。例如以有底漆钢板涂装的A级表面为100,无底漆钢板的涂装表面可达96,聚氨酯RIM系统(无填料)涂装后DOI为95,添加22.5%云母片的聚氨酯RRIM系统涂装后可达94,而加有25%锤磨玻纤的聚氨酯RRIM系统仅78。
CAS号:
性质:又称映像清晰度、投影清晰度。反映固体表面平整程度的相对性物理量,经常用于表征金属、塑料制品的表观涂装质量,用Dorigon鲜映度测定仪测定。例如以有底漆钢板涂装的A级表面为100,无底漆钢板的涂装表面可达96,聚氨酯RIM系统(无填料)涂装后DOI为95,添加22.5%云母片的聚氨酯RRIM系统涂装后可达94,而加有25%锤磨玻纤的聚氨酯RRIM系统仅78。
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