CAD-based range sensor placement for optimum 3D data acquisition

Second International Conference on 3-D Digital Imaging and Modeling (Cat. No.PR00062) Pub Date : 1999-10-04 DOI:10.1109/IM.1999.805343

F. Prieto, T. Redarce, P. Boulanger, R. Lepage

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引用次数: 36

Abstract

The use of laser range sensor allows a very significant improvement in acquisition speed but does not equal the accuracy obtained with a coordinate measuring machine. In order to obtain a quality control close to that obtained in metrology we suggest improving the accuracy of the depth measurements by positioning the sensor's head according to a strategy for optimum 3D data acquisition. We propose such a strategy to automatically produce a sensing plan for completely and accurately acquiring the geometry of a surface or of the whole piece whenever possible. The system requires the exact position and orientation of the part and its CAD model in IGES format. There is no limitation regarding the shape of the part to be digitized. An auto-synchronized range sensor developed at the NRCC was used, and for this sensor, the accuracy of the 3D measured points is a function of the distance and of the incident angle relative to the surface. Our strategy guarantees that the viewpoints found meet the best accuracy conditions in the scanning process.

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基于cad的距离传感器放置，以获得最佳的3D数据采集

激光测距传感器的使用可以显著提高采集速度，但不能与坐标测量机获得的精度相等。为了获得接近计量学中获得的质量控制，我们建议通过根据最佳3D数据采集策略定位传感器头部来提高深度测量的精度。我们提出了这样一种策略，以便在可能的情况下自动生成完整准确地获取表面或整个工件的几何形状的传感方案。该系统需要零件的精确位置和方向以及IGES格式的CAD模型。对于要数字化的零件的形状没有限制。使用了NRCC开发的自动同步距离传感器，对于该传感器，3D测量点的精度是距离和相对于表面的入射角的函数。我们的策略保证了找到的视点在扫描过程中满足最佳精度条件。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Second International Conference on 3-D Digital Imaging and Modeling (Cat. No.PR00062)

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