介绍了一种周期增量直线插补方法。
A kind of linear interpolation method on periodic increment is introduced.
提出了一种用于多坐标轴广义直线插补的简易算法。
A simple algorithm for multi axes general linear interpolation is introduced.
本文介绍了利用功能指令实现直线插补运算的方法及其程序。
This article introduces the method and program of using functional instructions of PLC to implement the linear interpolation compution.
直线插补采用梯形曲线模式,圆弧插补采用李沙育图形原理。
The line interpolation adopts trapezium mode, and the arc interpolation adopts the principle of Lissajous Pattern.
研究了逐点比较法,并编制了平面的直线插补和圆弧插补程序。
Study the dot-comparison in pulse increment and develop the line and arc interpolation.
在逐点比较法和最小偏差法基础上提出了一种新的直线插补算法。
A new algorithm for linear interpolation is presented based on trial-and-error method and least error method.
本文将重点介绍用逐点比较法实现空间直线插补运算的原理和方法。
The theory and specific technique of point-by-point comparison to realize interpolation operation of the spacial beeline was introduced.
介绍了整个系统的硬件构成和软件设计流程,并详细阐述了直线插补算法。
The hardware structure and the software design were introduced, and the straightline interpolation algorithm was described in detail.
以逐点比较法直线插补为基础,提出了长轴调速逐点比较法直线插补的新方法。
On the basis of linear interpolation with point by point comparison method, a new method for linear interpolation with long axis regulation point by point comparison is put forward.
采用双核CPU技术和先进的DDA曲、直线插补算法,使加工的产品质量更好。
Apply CPU of dual cores and advanced DDA curves and strait lines calculating method to assure better quality.
这种方法是在分析了最简单的直线插补,并考虑了各种插补方法的优点以后提出来的。
This method has been developed through the analysis of the simplest linear interpolation, and the merits of various interpolation methods have been taken into account.
以直线插补原理为基础,设计出以单片机为核心、步进电机拖动的三维立体自动定位系统。
This paper developments a threedimensional automatic position system based on straight line insert compensation principle.
它比利用软件实现的直线插补法速度快,精度高,适用于数字控制的机械加工或绘图设备。
It has higher speed and is more accurate than software method, therefore more suitable for all kinds of digital machine and digital plotter.
非圆曲线轮廓是机械零件常见的轮廓要素之一,绝大多数数控机床只具备直线插补和圆弧插补功能。
Non-circle curve is one of familiar outlines, but most numerical control machine tools only have linear interpolation and circular interpolation.
根据对高速切削加工计算机数控控制精度和控制速度的影响,分析了直线插补与样条插补方法的优缺点。
The advantages and disadvantages of spline and linear interpolation methods in relation to CNC - control accuracy and rate for high speed cutting are analyzed.
精插补使用了PMAC提供的直线插补模式,并由PMAC 以插补后加减速的方法自动完成加减速处理。
Fine interpolation utilizes the linear movement mode offered by PMAC hardware and post-acceleration method is implemented automatically by PMAC configuration.
分析了全象限逐点比较法直线插补的算法,给出了插补流程图,并提供了部分VB程序代码,并给出了仿真实例。
The arithmetic of linear interpolation is analysed, the interpolation flow chart and part of the VB program codes are provided, and the simulation example is presented.
文章介绍了一种简捷的快速直线插补新算法,两个坐标轴可实现同时进给,插补速度较快,均匀性好,偏差判别式的计算方法简单。
To satisfy the high speed, high precision, high efficiency and high reliability of CNC system, a new line interpolation controller was designed in this paper.
在该系统中不但具有直线和圆弧插补功能,而且还具有样条曲线插补功能。
In the new CNC system, not only linear or arc but also splines can be interpolated.
在该系统中不但具有直线和圆弧插补功能,而且还具有样条曲线插补功能。
In the new CNC system, not only linear or arc but also splines can be interpolated.
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