提出一种基于现代数控系统计算机数据采样插补算法。
Represents a computer data sampling interpolation algorithm based on modern numerical control system.
这里提出了一种基于计算机采样思想的数据采样插补方法。
This paper represents a data sampling interpolation method based on computer sampling theory.
时间分割是典型的数据采样插补算法,它较之脉冲增量插补法有一系列优点。
Segmentation is a typical data sampling time interpolation algorithm, it has a number of advantages compared with pulse incremental interpolation method.
从输出的数值形式来分,有基准脉冲插补(又称脉冲增量插补)和数据采样插补。
And from the angel of output format of interpolation calculation, it can be divided into reference pulse interpolation (or pulse increment interpolation) and data sampling interpolation.
文中采用数据采样插补算法进行粗插补,使用大规模可编程逻辑器件CPLD实现了硬件精插补计算。
The paper discussed a new realization method that rough interpolation is realized by sampled-data interpolation algorithm, and fine interpolation can be gained by CPLD electronic device.
在开环数控系统中采用数据采样法插补,可以有效提高系统性能。
Though time-slicing interpolation used in Open-loop CNC can prompt system performance effectively.
针对高程数据,给出一种规则化插补的重采样方法和基于着陆区平面拟合的粗糙度与坡度提取算法。
For elevation data, a regularized interpolation for resampling and an algorithm for extracting terrain roughness and slope with landing area plane fitting are presented.
给出采样控制中采用时间分割法的圆弧插补及动点位置判断。消除误差积累的简单实用算法。
This article deals with the circular interpolation adopting the method of time carve-up, the determining of motional particle and the elimination of error accumulation.
给出采样控制中采用时间分割法的圆弧插补及动点位置判断。消除误差积累的简单实用算法。
This article deals with the circular interpolation adopting the method of time carve-up, the determining of motional particle and the elimination of error accumulation.
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