杭州电子科技大学学报
杭州電子科技大學學報
항주전자과기대학학보
JOURNAL OF HANGZHOU DIANZI UNIVERSITY
2014年
6期
61-65
,共5页
Kinect标定%棋盘格标定%点云配准%迭代最近点算法
Kinect標定%棋盤格標定%點雲配準%迭代最近點算法
Kinect표정%기반격표정%점운배준%질대최근점산법
Kinect calibration%chessboard calibration%point cloud registration%iterative closest point algorithm
大型场景或者大尺寸物体的三维重建无法由单台设备完成,而由多台设备采集得到的点云位置偏移较大,一般的点云配准方法无法达到三维重建所需的精度。该文提出了一种基于Kinect标定的点云配准方法。首先通过棋盘格标定算法对两台Kinect进行标定,然后利用标定得到的相机内外参数计算不同视角下点云数据间的运动参数,接着根据得到的运动参数,对原始采集的点云数据进行初始配准。在此基础上,采用改进的迭代最近点算法,对初始配准后的点云数据进行精确配准。实验结果表明,与直接采用改进的ICP算法相比,该方法配准结果无明显的错位现象,且计算速度提高了15%左右。
大型場景或者大呎吋物體的三維重建無法由單檯設備完成,而由多檯設備採集得到的點雲位置偏移較大,一般的點雲配準方法無法達到三維重建所需的精度。該文提齣瞭一種基于Kinect標定的點雲配準方法。首先通過棋盤格標定算法對兩檯Kinect進行標定,然後利用標定得到的相機內外參數計算不同視角下點雲數據間的運動參數,接著根據得到的運動參數,對原始採集的點雲數據進行初始配準。在此基礎上,採用改進的迭代最近點算法,對初始配準後的點雲數據進行精確配準。實驗結果錶明,與直接採用改進的ICP算法相比,該方法配準結果無明顯的錯位現象,且計算速度提高瞭15%左右。
대형장경혹자대척촌물체적삼유중건무법유단태설비완성,이유다태설비채집득도적점운위치편이교대,일반적점운배준방법무법체도삼유중건소수적정도。해문제출료일충기우Kinect표정적점운배준방법。수선통과기반격표정산법대량태Kinect진행표정,연후이용표정득도적상궤내외삼수계산불동시각하점운수거간적운동삼수,접착근거득도적운동삼수,대원시채집적점운수거진행초시배준。재차기출상,채용개진적질대최근점산법,대초시배준후적점운수거진행정학배준。실험결과표명,여직접채용개진적ICP산법상비,해방법배준결과무명현적착위현상,차계산속도제고료15%좌우。
3 D reconstruction of the large-scale scene or the large size of the object can't be done by a single device, while the positions of the point clouds obtained by the multiple devices have a large offset, and existing methods can't reach the precision of 3D reconstruction.This paper describes a registration method for point clouds obtained by calibrated Kinects.The method uses chessboard calibration algorithm to calibrate two Kinects for purpose of obtaining the Kinects's intrinsic and extrinsic parameters, which are used to calculate the motion parameters between the multi-perspective point clouds obtained by calibrated Kinects.According to the motion parameters, the initial registration is accomplished, so that one can achieve the precise registration with using the improved iterative closest point( ICP) algorithm.The experimental results show that this method lowers the dislocation phenomenon and improve the calculation speed by 15%.
