就没有在伺服系统设计的含义,如果仍然有很大的差异和实际需要的运动,即使您的时间内可以达到你想要的。
There would be no meaning in design of servo system if there remains a substantial difference between desired and actual movement even though you could achieve within the time you wanted.
差动缸液压伺服系统往复运动是非对称的。
The reciprocating motion of differential cylinder servo system is asymmetrical.
针对传统交叉铺网机生产的非织造布棉网均匀度较差等问题,将运动控制总线sercos应用于W1251交叉铺网机数字伺服系统。
Aiming at the poor web uniformity of non-woven fabrics produced by traditional cross lapper, the motion control bus SERCOS is applied in the digital servo system of the W1251 cross lapper.
方法由DSC组成伺服系统检测中的信号发送装置,在调试伺服系统时,控制伺服系统的运动。
Methods When debugging servo system, the signal sending parts of servo system's detector made of DSC controlled the movement of servo system.
因此提高光电经纬仪跟踪快速运动目标的能力,一直是光电跟踪伺服系统努力的方向。
So improving the tracking ability of a theodolite for the fast moving target is the orientation of the photoelectrical tracking and servo system all along.
方位控制器伺服系统是一种机、电相结合的系统,机械传动装置根据控制信号驱动执行元件完成指令要求的运动。
The servo system of azimuth controller is a combine system of mechanics and electrics, the transmission mechanism drives the executive element by control signal to carry out the demanded motion.
当控制机将一条工艺程序段指令发完之后,伺服系统运动对指令值指定的位置还需多少时间的问题进行了计算。
This article deals with the calculation of the time needed for the servosystem to move to a certain place, after the controlling machine sent out the instructions.
XXX天线程序跟踪伺服系统是低速、高精度的运动控制系统,系统的重点在于如何实现较高的动态跟踪精度。
XXX Antenna tracking system is a low speed, high tracking precision servo system, whose key is how to realize high precision motive tracking.
本论文就如何提高光电经纬仪电视跟踪伺服系统跟踪捕获快速运动目标的能力等一系列问题进行了探讨。
These problems of how to improve the O-E theodolite capability to track and acquire fast moving targets are discussed in this dissertation.
本课题主要完成倒立摆伺服系统运动控制模块的设计和实现,对倒立摆系统进行建模和仿真,在此基础上完成了对单级倒立摆的稳定平衡控制。
The contents of this paper consists of the design and realization of motion control model for the inverted pendulum servo system, modeling and emulating of the inverted pendulum.
该试验台架能够模拟船舶的横摇运动和横荡运动,海浪作用于船舶的横摇力矩和横荡力分别由两套电液伺服系统模拟。
The platform can simulate rolling and swaying motion of ships. Two electro-hydraulic servo systems simulate rolling moment and swaying force of wave respectively.
近年来,随着靶场测试目标速度的提高和设备自动化程度的提高,对光电经纬仪电视跟踪伺服系统的跟踪和捕获快速运动目标的能力提出了越来越高的要求。
The high capability of O-E theodolite to track and acquire fast moving targets is required these years because of the rapid advancement of tested targets and automatization of equipments.
实现机器人的视觉伺服系统涉及到图象处理、运动学、动力学、控制理论、实时计算等多方面的内容。
Robot visual servo system involves a wide range of content, for example image processing, kinematics, dynamics, control theory, real-time calculation and so on.
给出了伺服控制器的硬件设计,选用美国TI公司专门为数字运动和电机控制推出的DSP控制器TMS320LF2407来实现交流伺服系统。
The hardware design of the servo controller. We choose the TMS320LF2407 DSP made by TI to implement the AC Servo System.
讨论了张力控制系统的构成原理,设计了以可编程控制器控制的交流伺服系统,实现该设备的可控非回转体环向缠绕运动;
Next, discussing structuring truth of tension control system, designing that PLC control AC servo-system, achieve may control no- gyrating round fiber winding motion;
视频监控跟踪系统是从图像信号中实时地自动识别目标,提取目标位置的有关信息,并自动跟踪目标运动的综合伺服系统。
Video supervision tracking system is a servo system, that can identify the target and pick up its position information from image sequences and track it automatically and on real-time.
论文第二章以简化的位置伺服系统数学模型为基础,讨论了运动轨迹系统的伺服增益设计与轮廓误差的关系。
The chapter 2 discusses the relation between servo gain and contour error for motion path system based-on simplifying position servo system math model.
建立了一种基于视觉位姿的机器人视觉伺服系统,该系统通过检测目标的位姿状态,从而实时监控和跟踪运动目标,实现对运动目标的相对距离和瞬时速度的动态检测。
A new method of visual location of mobile robot is put forward, and it can measure the relative distance between the mobile robot and goal by objective image.
建立了一种基于视觉位姿的机器人视觉伺服系统,该系统通过检测目标的位姿状态,从而实时监控和跟踪运动目标,实现对运动目标的相对距离和瞬时速度的动态检测。
A new method of visual location of mobile robot is put forward, and it can measure the relative distance between the mobile robot and goal by objective image.
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