农业展望
農業展望
농업전망
Agricultural Outlook
2015年
10期
60-64
,共5页
樊景超%李壮%周国民%程存刚
樊景超%李壯%週國民%程存剛
번경초%리장%주국민%정존강
Kinect%苹果树%三维形态%点云%应用方向
Kinect%蘋果樹%三維形態%點雲%應用方嚮
Kinect%평과수%삼유형태%점운%응용방향
Kinect%apple tree%3D shape%point cloud%application direction
为获取苹果树三维形态数据,研究使用Kinect三维采集传感器获取果树点云数据的系统工作流程,并在室内和室外进行了验证实验。结果表明该研究方法在适宜的环境条件和实验对象下可以提取到苹果树的三维点云数据,为苹果树的三维形态获取以及未来的应用方向进行了有益的探索。
為穫取蘋果樹三維形態數據,研究使用Kinect三維採集傳感器穫取果樹點雲數據的繫統工作流程,併在室內和室外進行瞭驗證實驗。結果錶明該研究方法在適宜的環境條件和實驗對象下可以提取到蘋果樹的三維點雲數據,為蘋果樹的三維形態穫取以及未來的應用方嚮進行瞭有益的探索。
위획취평과수삼유형태수거,연구사용Kinect삼유채집전감기획취과수점운수거적계통공작류정,병재실내화실외진행료험증실험。결과표명해연구방법재괄의적배경조건화실험대상하가이제취도평과수적삼유점운수거,위평과수적삼유형태획취이급미래적응용방향진행료유익적탐색。
In order to obtain the 3D shape of apple tree data, the authors used Kinect 3D acquisition sensor to capture system working process of fruit tree point cloud data, and carried out verification experiments indoors and outdoors. The results showed that this research method could extract the three-dimensional point cloud data of apple trees in right environmental conditions and experimental subject, and made some helpful explorations of the acquisition and the application directions of 3D shape of apple tree in the future.
