本论文探讨了一种非接触式快速获取三维物体外形的检测方法——面结构光投影三角测量法。
It presents a method named surface Structured Light Projection Triangle Measurement, by which we can capture the surface topography of a three-dimensional object without any contact.
阐述了基于三角法结构光投影的测量原理。
The measurement principle of structured light method based on a triangular algorithm is described.
本文基于光学三角法测量原理,设计了一种通过改变光平面与成像光轴夹角来实现对视场内被测零件表面扫描的视觉测头。
A novel noncontact scanner that scans the inspected part's surfaces by changing the Angle between laser plane and optical axis is designed based on optical triangulation.
本论文探讨了一种非接触式快速获取三维物体外形的检测方法——面结构光投影三角测量法。
This dissertation presents a method named surface Structured Light Projection Triangle Measurement, by which we can capture the surface topography of a 3d object without any contact.
它的测量原理虽然与结构光三角测量原理类似,但它克服了三角法中获取图像和处理时间较长的缺点。
It's principle is similar with the structured light triangulation, but it overcomes the drawback of taking long time in getting and processing images.
飘波的出现会导致用三角法测量板形时出现误差,而新型截光法板形仪可减轻或消除此误差。
The occurrence of the flying wave can lead to the error in shape control by shape meter using laser triangle method, but the error can be decreased or eliminated by laser capture method.
飘波的出现会导致用三角法测量板形时出现误差,而新型截光法板形仪可减轻或消除此误差。
The occurrence of the flying wave can lead to the error in shape control by shape meter using laser triangle method, but the error can be decreased or eliminated by laser capture method.
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