对数控系统核心软件插补技术进行了研究。
Study the interpolation technology, kernel part of the software.
深入研究了刀具轨迹自动生成技术及样条插补技术。
The generation and Spine Interpolation technologies of Tool Path are researched deeply.
相位插补技术主要用于解决因弱信号段而产生的相位信息缺失的问题。
Interpolation technique is used to solve the problem of phase information missing generated by weak sequence signal.
基于图像的视图插补技术涉及到多视图几何中的多参数估计、图像匹配等。
So far, the algorithms of view interpolation based on images are involved in the estimation of multi parameters and image matching under multiple view geometry.
目前,参数曲线实时插补技术正在逐渐成为数控插补技术研究的一个热点。
At present, parameter curve real-time interpolation is gradually becoming a research hotspot of numerical control interpolation technology.
在分析NURBS曲线现有插补算法的基础上,着重研究了三次NURBS曲线实时插补技术。
Based on analyzing the NURBS curve interpolation Algorithm, this paper emphasizes on the three NURBS curve real-time interpolation technology.
通过BenVista最新的s - Spline插补技术,让图片的放大和缩小尽可能达到最高的质量。
Enlarges and downsizes images at the highest possible quality, through BenVista's latest S-Spline interpolation technology.
在CNC加工中,刀具运动轨迹的插补算法是一个重要的技术问题。
The interpolator algorithm for cutter's motion locus is an important manufacturing technology problem in CNC machining.
针对这一特性,基于线性插补的数学思想,利用单片机技术,对其进行。
According this characteristic, used MCU technology, based on linear interpolation idea, to compensate the error.
本文根据模糊推理技术,提出了一种自由曲面的建模方法,并对其数控加工的插补算法进行了研究。
A method for modeling freeform surface is presented based on fuzzy inference techniques and the interpolation algorithm of numerical control for freeform surface is studied in the paper as well.
同时结合对实际加工中成形运动控制的分析,提出了采用3B代码编程,利用逐点比较法插补原理的成形运动控制技术。
Through analyzing control of the shaped movements in processing, the control technology of the shaped movements, which adopted point-by-point interpolation via 3b code, was introduced.
其中插补及加减速控制技术是数控加工的核心功能模块,其性能的好坏将直接影响加工精度和加工效率。
The interpolation and acceleration and deceleration control are two core functional modules of CNC machining technology, which have great impacts on machining precision and efficiency.
在采用时间分割法插补的开环数控系统中,精插补的脉冲均匀分配是其中一项关键技术,也是技术难点。
Uniform Pulse Distribution is technical difficulty and key technologies in open-loop CNC which use time-slicing interpolation.
对数字扫描变换器中的插补算法进行分析,提出了基于CPLD技术的硬件实现方案,实现了一种高性能的数字扫描变换器。
The interpolation algorithms applied in DSC are analyzed. The design of hardware system based on CPLD is presented. A new DSC with high performance is implemented.
并且对数控插补球轴承磨削的关键技术进行了理论分析以及实际应用。
Key factors of NC interpolation ball bear grinding were analyzed theoretically and manipulated practically.
插补算法是数控系统的核心技术之一,插补算法的选择及算法特性直接影响到数控系统的控制精度、速度及加工能力等。
Interpolation algorithm is the core technology in Numerical Control (NC), which has direct impact on the control accuracy, feed speed and machining capacity.
构建的数控系统具有通用数控系统的一般功能,能实现点动和插补运动,机床加工的产品符合客户技术要求。
The system has the general function of universal CNC system and can realize the jog control and moving interpolation. The products of the machine tool machining accord with requirements of customer.
加工中心检验条件。第6部分:进给率、速度和插补精度。技术勘误1。
Test conditions for machining centres - Part 6: Accuracy of feeds, speeds and interpolations; Technical Corrigendum 1.
采用32位高性能CPU,运用实时多任务控制技术和DSP高速、高精度插补控制技术,工作时高稳定性,高速运行,低噪音。
32 bits high speed and characteristics, Multi-task Controlling System and DSP high-speed, high-precision interpolation control technology, to increase stability and high speed with low noise.
采用32位高性能CPU,运用实时多任务控制技术和DSP高速、高精度插补控制技术,工作时高稳定性,高速运行,低噪音。
32 bits high speed and characteristics, Multi-task Controlling System and DSP high-speed, high-precision interpolation control technology, to increase stability and high speed with low noise.
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