摘要
提出了利用散焦图像的高频能量参数获取深度信息的新方法 .算法实现步骤分为两步 :首先通过标定实验 ,从一组在 2 μm间隔深度下采集的微工具序列模糊图像中导出深度计算方程 ,然后 ,在实际深度估计中 ,测得深度对应的能量参数 ,代入深度方程 ,求解出深度值 .在测试实验中 ,讨论并解决了微工具形状不均对标定实验的影响 .该技术已经成功地应用到NKTY MR系列微操作机器人系统 。
A new method of estimating the depth information for micro manipulation is proposed. The depth information is obtained by using high spatial frequency energy parameters of the defocused images. The algorithm consists of two steps: firstly, the depth function is derived using a sequence of calibration images with an interval of 2μm; secondly, in the practical measurement, the depth can be calculated by using this depth equation when acquiring the energy parameter of the micro manipulator in the certain position. In the testing experiments, the effect of micro glass needle shape on calibration experiments is analyzed and overcome. This method has been successfully applied to both ranging and rapid auto focusing in the actual micro manipulation robot named NKTY MR.
出处
《机器人》
EI
CSCD
北大核心
2004年第4期351-356,共6页
Robot
基金
国家 863计划资助项目 (2 0 0 1AA42 2 390 )
国家自然科学基金资助项目 (60 2 750 35)
关键词
散焦深度
微操作
显微成像模型
散焦OTF
高频能量参数
depth from defocus
micro manipulation
microscope imaging model
defocus OTF(Optical Transform Function)
high frequency energy parameter