本文介绍了一个计算机程序,它用于推导坐标转换矩阵,或几何关系方程。
In this paper, a computer program is introduced which can generate the coordinate system transformation matrix and geometric equation.
在计算机视觉原理的基础上,本文提出了一种求取从视平面坐标到实际坐标转换矩阵的算法。
Based on the principle of computer vision, this paper presents a matrix algorithm for the coordinate transformation from visual plane to geographical plane.
接下来,旋转和恢复这个矩阵;然后,使用translate设置与当前坐标系统的偏移量(这是从之前旋转和转换的矩阵应用的),并绘制一个红色椭圆。
Next, rotate and store this matrix; then, offset from the current coordinate system with translate (which is applied from the previously rotated and translated matrices), and draw a red ellipse.
提出了一种基于矢量运算的新的坐标变换方法,该方法具有不需要计算转换系数矩阵、可逆的特点。
A novel reversible coordinate transform method, need not calculating the transform coefficient matrix, based on vector operation is proposed in this paper.
将图像转换为矢量图形,由计算机提取图形节点坐标形成二维点集矩阵。
The image is converted into vector and sketch node coordinate is withdrawn automatically by computer, two dimension the point gather the matrix is formed.
在基于位置的视觉伺服中,需要建立将二维图像信息转换为三维坐标信息的图像雅可比矩阵。
In the robotic visual servo system based on the position, it is need to build an image Jacobian which transforms two-dimensional image information to three-dimensional coordinate information.
照相机空间中Z坐标的最大值和最小值由投影矩阵转换 Z坐标的方式来定义。
The minimum and maximum Z coordinates in camera space are defined by how the projection matrix transforms the Z coordinate.
应用一种新的随动坐标系转换方法,给出用于转换生物组织中光子空间传输坐标的矩阵方程。
A new transformation method for follow-up coordinate system is used and a matrix equation for transforming spatial transporting coordinate of scattering photons is given.
对两坐标系的转换矩阵、标定方法和标定精度进行研究。
The transformation matrix, calibration method and precision of the coordinate system were investigated.
捷联惯导系统利用相对导航坐标系角速度计算姿态矩阵,把雷体坐标系轴向加速度信息转换到导航坐标系轴向并进行导航计算。
The platform inertial navigation system used peg-top to stabilize the loop through platform and control the angular speed of the platform track navigation coordinate system.
捷联惯导系统利用相对导航坐标系角速度计算姿态矩阵,把雷体坐标系轴向加速度信息转换到导航坐标系轴向并进行导航计算。
The platform inertial navigation system used peg-top to stabilize the loop through platform and control the angular speed of the platform track navigation coordinate system.
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