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RAYTE-Laser-alignment-systems
- 由于光电准直系统的高精度、稳定性,在机械工业,自动化及机械和建筑工程领域得到广泛应用。RAYTEC GEPARD™ 激光准直仪是一款通用的高精度测量及校准系统,它能够简捷快速地完成测量任务,并实时显示测量值,同时进行被测工件的校准、微调或在线测量。测量结果直接传输到软件中,并可打印出结果。可轻松完成直线度、平行度、平面度、定位、对齐、校准、垂直度、角度、同心度、同轴度、主轴旋转中心径向跳动的测量,新型3D 型号更增加了定位点距离的测量功能,达到快速准确便捷的几何形状误差测量。 更
Robot(OpenNIPKinect)
- 我们把Kinect相机作为3D测量设备来分析,试验性的研究深度测量分辨率和错误属性,并将Kinect与SLP相机和一个3D-TOF相机就立体重建的准确性做定量比较。我们提出了Kinect几何模型、Kinect相机的标定步骤和Kinect 3D测量的准确标定流程。我们展示了Kinect标定的功能-通过将它融入到一条SfM Pipeline中,在这里从动态的Kinect相机获得的3D测量数据通过计算彩色相机中与之相匹配的位姿被变换到普通坐标系。 -We put the Kinect came
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- 摄像机标定中光心图像坐标确定方法,由所提出的两种方法求得的光心图像坐标在进行标定与三维测量时可达到较高的精度并且优于直 接用图像中心坐标进行标定与三维测量的精度-Experiment and simulation results show that accuracy of two improved methods in calibration and 3D measurement is higher than that obtained from using image cent
FACE3D-Series
- Abstract—Recently, a 3D face recognition approach based on geometric invariant signatures, has been proposed. The key idea of the algorithm is a representation of the facial surface, invariant to isometric deformations, such as those result
m3dmap
- MIL图像库3D测量校正和体积计算过程,同时包括深度图像的融合。-MIL Image Library 3D measurement calibration and volume calculation process, including the integration of the depth of the image simultaneously.
Multi-frequency-heterodyne
- 多频外差相移三维测量关键技术,详细介绍了多频外差的原理-Multi frequency heterodyne phase shift key technology of 3D measurement
3D-graph-CWgraph3D-component-work
- NI measurement studio 3D graph 用 Delphi 呼叫的 example-Example NI measurement studio 3D graph with Delphi calls
3d-measurement
- 基于sift算子的双目视觉三维测量技术 双目标定 摄像机标定-sift 3c-measurement
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- 结构光三维视觉测量关键技术的研究,讲述了结构光三维测量的过程与步骤,有很好的实现价值。-Structure light 3D vision measurement key technologies about the process and the structured light 3D measurement step, a very good time to value.