A 3d shape acquisition system using linear structured light scan is introduced.
介绍一个利用线结构光扫描获取目标3维信息的测量系统。
A calibration method for linear structured light measure system is also proposed.
还提出一种适用于线结构光测量系统的标定方法。
The thickness measurement of the transparent curved surface object is investigated with the linear structured light method.
从实际应用角度出发,采用线结构光方法进行曲面透明壳体厚度测量的研究。
For polynomial fitting measuring model of a linear structured light scanning probe, the extraction and compensation methods for systematic errors of the probe are presented.
针对线结构光扫描测头多项式拟合测量模型的系统误差问题,提出了一套用于该测头系统误差提取与补偿的方法。
Even with the advantages of high measurement precision and not easy to wear for the method, the practical measurement result of the linear structured light is not satisfying.
尽管激光扫描测量法具有测量精度高和不易于磨损的优点,但目前国内外采用该方法测量车轮踏面时,实际测量精度和效果均不理想。
The reason that caused measurement error is analyzed deeply. The paper makes use of the neural network to compensate linear structured light measurement system, so improve the measurement precision.
深入分析了引起系统测量误差的原因,并利用神经网络对线结构光测量系统进行误差补偿,提高了系统的测量精度。
This paper puts forward a conception of a non-diffraction structured light (NDSL), which has characteristics such as linear structure, long focal-depth and narrow line-width, etc.
提出了一种无衍射结构光概念,这种光具有线性结构、焦深长、线宽小等特点。
This paper puts forward a conception of a non-diffraction structured light (NDSL), which has characteristics such as linear structure, long focal-depth and narrow line-width, etc.
提出了一种无衍射结构光概念,这种光具有线性结构、焦深长、线宽小等特点。
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