1) Control point comparison
控制点比较法
2) comparison control
比较控制
1.
A comparison controlled automatic temperature-measuring and -controlling instrument isdescribed.
本文介绍了一种比较控制式温度自动测控仪。
3) legal system comparison
法制比较
4) point-to-point comparison method
逐点比较法
1.
By studying the point-to-point comparison method,the author presented a new algorithm based on point-to-point comparison method.
通过对逐点比较法的研究,在逐点比较法的基础上提出了一种基于逐点比较法的新算法。
2.
The paper discussed the principle of traditional point-to-point comparison method of linear interpolation, and brought forward two different improved algorithms, which principles were also discoursed upon.
逐点比较法直线插补是数控加工中常用的插补算法之一,通过比较刀具移动的实际位置与理论位置,获得偏差情况,进而决定下一步的进给方向来实现对零件的加工。
5) point-by-point comparison
逐点比较法
1.
Algorithm for linear interpolation of four coordinates with point-by-point comparison method;
基于逐点比较法的四坐标联动直线插补算法
2.
Based on the long-time practice and the rich experience in teaching numerical control technology and upon comparison, analysis and study, the paper points out that the interpolation operation of the spatial beeline can be realized by point-by-point comparison so as to realize the three axes linkage control.
作者在长期从事数控技术和数控专业教学活动的实践中 ,经过比较、分析和研究 ,发现用逐点比较法同样可以实现空间直线插补运算 ,以实现数控机床三轴联动控制。
6) Point by Point comparison method
逐点比较法
1.
The diagonal ellipse arc interpolation based upon Point by Point comparison method;
逐点比较法斜椭圆弧插补
2.
The elemental principles of point by point comparison method and the improvement of circular interpolation were introduced, as well as the implementation algorithm with the advanced computer language after improvement.
逐点比较法是开环数控系统常用的插补方法,介绍了逐点比较法的基本原理和圆弧插补改进方法及改进后的高级语言实现算法,可有效的提高逐点比较法的插补精度。
3.
There are many advantages to adapt polar coordinates system interpolation in swing structural machines,In this paper,by using point by point comparison method to achieve line interpolation and circle interpolation control algorithms in polar coordinates,and introduced the distribution of error in polar coordinates.
通过极坐标插补来实现旋臂式机械装置的运动具有很多优点,本文通过逐点比较法实现极坐标式直线插补以及圆弧插补的控制算法,并介绍极坐标的误差分配与轨迹规划问题。
补充资料:控制点
在地形测图或工程建筑物测量设计中起控制作用的点。因测定的方法和目的的不同,分三角点、导线点、水准点和天文点等。每点均具有高程和平面直角坐标(或经纬度)的数据。在地形测图中,控制点上埋设有标石以示其点位。
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