系统标定是FTP法测量中的关键部分。
提出系统标定方法,完成系统标定实验。
The calibration method is proposed and our system calibration experiment is accomplished.
在系统标定时,不同标准件的标定系数不一致。
When measuring system is calibrated, different standard rod gets different calibration coefficient.
通过实验验证了系统标定算法的正确性与必要性。
Besides, the correctness and necessity of the system calibration work is verified through real experiment.
系统标定;
图像测量系统标定是计算机视觉获取三维信息的前提和基础。
The calibration of image measurement system is the basis and prerequisite of acquiring 3d information adopting computer vision technology.
对摄像机成像模型进行了分析,论述了机器人手眼系统标定原理。
The imaging model of the camera is analyzed; the calibration principle of robot eye-in-hand system is discussed.
建立了该系统的数学模型,并给出了一种基于该模型的摄像系统标定方法。
Based the camera system model, the calibration method oft he whole system is precisely deduced.
通过控制装有摄像机的机械手的运动,给出了一种新的机器人手眼系统标定方法。
We present a new hand-eye calibration method on the basis of controlling motion of manipulator mounted with a camera.
介绍了ATOS流动式光学扫描仪的结构光三维扫描法工作原理和系统标定方法。
The working principle of 3d scanning with structured light and the system calibration of ATOS optical scanner are introduced.
设计了系统标定方法,给出了详细的标定步骤和实验数据,最终得到系统测量结果。
We put forward the calibration method and list the detailed calibration process and data, then acquire system measurement results.
并且实现了系统标定及对测量数据的实时显示、动态绘制曲线、存储和打印等功能。
The system have functions of data calibrate, real time data display, the system demarcate, the real-time dynamic drawing data curve, data storage and print etc.
测控装置系统标定的准确性将直接影响到测试结果的真实程度或控制系统的设计效果。
The demarcating accuracy of measure-control device system can directly affect the reality of test result or the design function of control system.
通过对排种器性能检测的特点分析,提出了由单摄像机和平面镜组成的摄像系统标定方法。
By analyzing the detecting features of seed metering device, a calibration method of camera system that is only composed of a single camera and a flat mirror is proposed.
该方法不仅可使测控装置系统的标定实现全自动化,而且极大提高了系统标定的准确程度。
This method can not only make demarcation of measure-control device system full automatization, but also greatly improve accuracy of system identification.
使用该标定系统标定柴油机电控喷油系统,匹配6110柴油机和MD-TICS喷油泵。
The system was used to match MD-TICS injection pump to 6110 diesel engine.
成像系统标定是机器视觉测量系统所成图像和实际被测尺寸之间实现高精度转换的关键过程。
The calibration of a camera system is a key step to the precise conversion between an image of machine vision and the real dimension.
根据该原理形成的带系统标定专用处理软件的智能化系统辨识虚拟仪器,将具有广阔的应用远景。
Formed from the principle proposed in the paper, automatous system identification virtual instrument with special system demarcation process software will be widely applied to many fields.
这一方法简化了机器人手眼系统标定过程,提高了定位精度,同时推广了手眼视觉系统的应用范围。
This method simplifies the complicated process of robot hand-eye system calibration and improves the positioning precision, meanwhile, it extends the application range of hand-eye vision system.
随着发动机电控系统标定工作复杂程度的提高,为提高标定效率,自动优化标定技术日益受到重视。
With the increasing of complication of optimization and calibration for electronic controlled engine, to improve the efficiency, automatic calibration technology has become more attractive.
给出了新系统的结构与原理,并提出了一种新的系统标定方式,对新系统进行了实验研究,取得了良好的实验结果。
The structure and principle of the new system are presented, and a new demarcate way of the system is proposed. The experiment research of the system has been done, and got a good result.
在系统标定过程中,为了克服传统系统标定技术中水平度、垂直度的局限,采用新的系统标定方法对测量系统进行标定。
In the system calibration, in order to conquering tradition calibration of the localization, he parallel and perpendicular, adopted the new system calibration to measure the system.
流程b:湿标定过程。本流程需要用传感器输入信号与NIST可追溯性测试液。正确操作,会完成最精确的系统标定。
Procedure b: Wet calibration process. This procedure needs the sensor input signals and NIST traceable test liquid. Correct operation will result in the most accurate system calibration.
由于承载鞍形貌复杂、被测面较多且集中分布,采用一般的标定方式标定十分困难,所以专门研究了用于承载鞍视觉检测的传感器系统标定方法。
The thesis also introduces a special calibration method for vision sensor system in respect that we find the usual calibration ways can not be used in this system.
分别利用恒温箱和悬臂梁完成了系统温度灵敏度和应变灵敏度的实验标定。
The sensitivities of temperature and strain are calibrated by calorstat and cantilever beam separately.
分别利用恒温箱和悬臂梁完成了系统温度灵敏度和应变灵敏度的实验标定。
The sensitivities of temperature and strain are calibrated by calorstat and cantilever beam separately.
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