这种情况下不需要标定摄像机在世界坐标系的位置,相对的对于世界坐标系的旋转矩阵和平移矩阵也不需要。
In this instance, the location of camera in the world coordinates is unnecessary to calibrated, and the rotary matrix and horizontal movable matrix is needless too.
该标定方案直接优化摄像机相对于世界坐标系的旋转角度,因此能够在获得精确解的同时,保证旋转矩阵的正交约束条件。
Because the calibration method directly optimizes the camera rotation angles relative to the world coordinate system, it ensures the orthonormal constraints as well as the precise solutions.
由于该算法直接优化摄像机的旋转角度,所以本文的标定方案能够容易地满足旋转矩阵正交约束条件。
Because the algorithm optimized the rotation angles directly, the orthonormal constraints were easily satisfied in the present method.
使用恒定旋转矩阵使得目标三维定位的算法与标定参数的过程大大简化,同时具有较高的定位精度。
The constant rotation matrix simplifies the algorithm and process of object 3 D position, and it can achieve high accuracy.
该方法通过保持机器人连杆三到机器人基坐标系的旋转矩阵恒定来直接获得世界坐标,简化复杂的手眼标定和相机标定。
The method is keeping the rotation array between robot's connecting-rod 3 and robot reference coordinate constant, which can simplify the complicated hand-eye calibration and camera calibration.
该方法通过保持机器人连杆三到机器人基坐标系的旋转矩阵恒定来直接获得世界坐标,简化复杂的手眼标定和相机标定。
The method is keeping the rotation array between robot's connecting-rod 3 and robot reference coordinate constant, which can simplify the complicated hand-eye calibration and camera calibration.
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