因此,光学三维面形测量技术受到广大学者的重视,正成为信息光学的前沿研究领域和方向之一。
So, more and more scholars attach importance to optical three-dimension shape measurement and it is being one of front line studying fields and researching direction of information optics.
而傅里叶变换轮廓术作为一种主动光学三维形貌测量技术,因其只需要一幅变形光栅图样来做全场分析的优点,而受到人们广泛关注。
The Fourier transform profilometry as an active optical 3d shape measurement technology has been widely concerned because it need only one deformed grating image to make full-field analysis.
摘要 :为了实现大型自由曲面的三维面型测量,提出了采用光学定位跟踪技术的数据拼接方法。
Abstract : In order to realize 3D shape acquisition for large free surface, a data registration method using optical location tracking technology was proposed.
为了适应这些市场的需求,光学测量技术已经被开发和适用于高精度的数字化甚至是极小的三维结构。
To comply with these requirements, optical metrologies have been developed and adapted to digitize and measure even smallest 3D structures with HighDefinition.
光学三维形貌测量技术具有非接触性、高精度、高速性和自动化程度高等特点,在形貌测量领域得到了广泛的应用。
Optical 3-d shape measurement technology has been widely used in shape measurement because of its characteristics of non-contact, high accuracy, high speed and high automation.
人脸几何参数测量和特征定位是光学三维测量在医学整形美容、三维人脸识别等方面应用的关键技术。
The geometric parameter measurement and feature location of the face are the key technology in the application of the optical 3D measurement.
在超精密台式三维Optocal探查带来了高性能既属于精密制造技术和研究公司达成光学测量。
The Ultra Precision Benchtop 3D Optocal Profiler brings high performance optical measurements within the reach of both precision manufacturing and research companies.
在超精密台式三维Optocal探查带来了高性能既属于精密制造技术和研究公司达成光学测量。
The Ultra Precision Benchtop 3D Optocal Profiler brings high performance optical measurements within the reach of both precision manufacturing and research companies.
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