3D Data Acquisition and Registration Using Two Opposing Kinects

2016 Fourth International Conference on 3D Vision (3DV) Pub Date : 2016-10-28 DOI:10.1109/3DV.2016.21
Vahid Soleimani, M. Mirmehdi, D. Damen, S. Hannuna, M. Camplani
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引用次数: 13

Abstract

We present an automatic, open source data acquisition and calibration approach using two opposing RGBD sensors (Kinect V2) and demonstrate its efficacy for dynamic object reconstruction in the context of monitoring for remote lung function assessment. First, the relative pose of the two RGBD sensors is estimated through a calibration stage and rigid transformation parameters are computed. These are then used to align and register point clouds obtained from the sensors at frame level. We validated the proposed system by performing experiments on known-size box objects with the results demonstrating accurate measurements. We also report on dynamic object reconstruction by way of human subjects undergoing respiratory functional assessment.
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三维数据采集和注册使用两个相对的运动
我们提出了一种自动、开源的数据采集和校准方法,使用两个相反的RGBD传感器(Kinect V2),并证明了其在远程肺功能评估监测背景下动态物体重建的有效性。首先,通过标定阶段估计两个RGBD传感器的相对位姿,并计算刚性变换参数;然后用这些来对齐和配准从帧级传感器获得的点云。我们通过在已知尺寸的盒子物体上进行实验来验证所提出的系统,结果显示出精确的测量结果。我们还报道了通过人体受试者进行呼吸功能评估的动态物体重建方法。
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2016 Fourth International Conference on 3D Vision (3DV)
2016 Fourth International Conference on 3D Vision (3DV)
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