1) linear interpolation
线性插补
1.
Meanings of linear interpolation and velocity;
多轴联动线性插补及其速度的理解
2.
This article analyzed the theoretical errors resulted from approximating the perfect continuous tool path with linear interpolation in 5-axis machining,and this kind of error is also called non-linear motion errors or known as the geometry-based errors.
分析了五坐标联动数控系统采用线性五轴插补运动时,与实际的空间非线性连续轨迹之间的理论加工误差;用空间解析几何、齐次坐标变换建立了双转台结构五坐标机床的运动变换数学模型,并结合五坐标数控机床加工过程的线性插补原理,建立了该类五坐标机床的非线性运动误差估计模型,提出了一种非线性误差控制策略。
3.
To overcome this problem and optimize machining speed,based on the data sampling method,the 5-axis simultaneous linear interpolation was realized by using the equivalent displacement and the directional coefficient of the coordinate axis.
基于数据采样法,利用当量位移和坐标轴方向系数实现了5轴联动线性插补;利用直线加减速原理进行插补前加减速控制;对速度前瞻控制方法进行了深入探讨,实现了相邻程序段转接处速度优化、连续微小程序段速度计算、减速点提前预测及前瞻程序段数动态选择等。
2) NLIVQ
非线性插补
3) grouped Linear interpolation
分组线性插补
1.
The phase error between output and input voltage is received by CAP interrupt and Period interrupt of MCU, a alterable PI controller is applied to calculate a compensation value of carried period which is changed by grouped Linear interpolation re-modulation technique, high precision digital phase locked functio.
通过捕获中断和周期中断获取输入输出的相差,经过分段式变PI控制器计算出载波周期的补偿量, 采用分组线性插补再调制技术改变每个载波周期值,从而实现高精度数字锁相功能。
4) 5-axis linear interpolation
五轴线性插补
5) nonlinear interpolation error
非线性插补误差
1.
The relationship between the linear interpolation step length and the nonlinear interpolation error is studied on a Stewart platform-based parallel kinematics machine(PKM) for enhancing the kinematics accuracy.
为了提高Stewart型并联机床运动学精度,文章研究并联机床末端运动轨迹的直线插补步长和非线性插补误差的关系。
6) Linear interpolation
直线插补
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.
Linear interpolation control and its realization based on PLC;
基于PLC的直线插补控制及其实现
3.
Design and Realization of Linear Interpolation Controller Based on CPLD
基于CPLD的直线插补控制器的设计与实现
补充资料:线性插值法
线性插值法是根据已知两项有关的对应关系资料估算第三项对应的未知资料。
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