摘要
食品机械加工中会出现对接过程,对接过程的精确性直接影响后期的工艺能否顺利进行。针对当前的对接过程仅仅依靠信号传感器完成,精度不高,提出基于三维图像校对的食品机械加工对接平台设计方法,分析三维图像对机械对接过程的校对原理,依据食品机械中三维图像局部亮度、对比度、结构信息,在大量可选择的对接图像中采集最优对接区域的特征点,对对接区域进行三维图像还原。获取几何阵关于z轴的子矩上的任意阶矩,优化可对接信息,通过投影矩实现基于食品机械加工过程中的高精度对接。仿真试验结果表明,所提方法具有很高的效率及对接精度。
Docking process occurs in food machinery processing,the accuracy of the docking process can directly affect the later process successfully.In order to solve the problem of low docking accuracy which depends only on the signal sensors,the design method of processing docking platform based on three dimensional image is afforded,by analyzing the influence of three-dimensional image mechanical calibration principle of docking process,and acquiring the feature points in the optimal docking area of a large number of the three dimensional docking images which can be chosen based on local brightness,ratio of contrast,information of structure,the three dimensional images can be restored,and then the child moment of the geometry array of the z axis can be gotten,with the optimal docking information,the high accuracy docking can be realized by used of the the projection matrix.The simulation results show that the proposed method is of high efficiency and with high docking accuracy.
出处
《食品与机械》
CSCD
北大核心
2015年第5期153-156,共4页
Food and Machinery
关键词
三维图像
校对
对接平台
three dimensional image
calibration
docking platform
