在不考虑摄像机内外参数标定误差的情况下,研究了标志点像元的测量精度对运动参数测量的影响。
The relationship between the detection of feature points and the measurement of motion parameters is studied in this instance of ignoring the camera calibrate errors.
通过测量系统,设立在每个椎体上的三个标志点的运动分别投影到光屏,摄像机动态记录,输入计算机图像处理系统。
The movement of three marks, which fixed in vertebrae, were separately projected to light screen of the system, kinematically recorded with video camera, inputted to image processing system.
在匀变速直线运动的实验中,利用PC机的串行接口来记录运动小车通过测量点的时刻值,以此代替打点计时器计时。
In an uniformly accelerated motion experiment, the moment of a cart passing through the measuring point is recorded by PC's serial interface instead of pointing timer.
高精度红外光点位置检测分析系统是基于光电位置敏感器件、立体测量学研制而成的运动物体分析系统。
A high precision infrared light spot motion analysis and measurement system based on a new type position sensitive detector (PSD) and stereo measurement was developed.
这台设备用于空间测量,使用一个运动的测量探针获得物体表面某点的坐标。
This is a device that is used for dimensional measuring, that USES a moving measuring probe to obtain the coordinates of points on an object surface.
通过运动物体的变量直接把没影点与基点的影像特征相联系,建立一种新的测量运动物体的数学模型,并对该模型的应用作了展望。
A new measurement model is derived to directly connect the image features of vanishing point and base point, and it's applications are forecasted.
该方法取运动角点为特征量,通过选择灰度相关函数为特征匹配函数,实现了车辆在一定帧差内移动距离的测量。
Motion corner points are chosen to form a feature vector, and the image intensity is used as a feature matching function to measure inter-frame movement of the vehicle.
本文提出的三点式误差分离新方法用以分离旋转轴线的径向误差运动与测量介质或测量对象的形状误差。
A new 3-point error separation method is developed and used in this paper for separating the radial errors of rotating axis and the shape errors of the objects measured.
通过运用修正后的运动学模型对车身点实施测量,并与跟踪仪的实测距离数据进行比较。
Car body points were measured by using the modified kinematics model and compared with the distance data of laser tracker.
利用该系统同时测量出焊缝高温区一点的横、纵向位移,得到该点在焊接过程中的运动轨迹。
With this system the vertical and horizontal displacements of a point in the welding high temperature area are measured at the same time and get its locus during welding.
利用该系统同时测量出焊缝高温区一点的横、纵向位移,得到该点在焊接过程中的运动轨迹。
With this system the vertical and horizontal displacements of a point in the welding high temperature area are measured at the same time and get its locus during welding.
应用推荐