摘要
结构光具非接触性、高精度、易于实现等优点,将其应用在物体三维重建上,可以提高采集速度和测量精度。在VC++平台下,改进结构光编码采用OpenGL编程方式,不仅可以绘制出各种形态的二维和三维图形,并能精确到像素级,而且能实现图形静态和动态的显示。这些优点恰能满足将结构光编码应用于医学上的动态显示,减少了人工干预,实现智能化投影。
The advantage of high precison,non-contact and easy achievement of structured light makes it beneficial in three-dimensional reconstruction,which achieves the higher sampling speed and measurement accuracy. Display mode changes of structured light binary code is the first and most important step towards improving the rate of collection, which uses OpenGL program mode based on VC++6.0 platform. The graphic interface of OpenGL is easy to operate, which includes 120 graphics functions and 16700000 species of palettes for color, not only draws variety of two-and-three-dimensional graphics, but also makes the graphics accurate up to pixel and implement static and dynamic display. These advantages can be taken in medical dynamic display.
出处
《重庆科技学院学报(自然科学版)》
CAS
2011年第5期136-139,共4页
Journal of Chongqing University of Science and Technology:Natural Sciences Edition
基金
吉林省科技发展计划项目(20090509)
吉林农业大学青年基金项目(201027)
关键词
结构光
三维重建
VC++
OPENGL
structured Light
three-dimensional reconstruction
VC++
OpenGL
