基于多投影仪的无缝拼接显示是对图形、图像、视频等进行大范围、高分辨率显示的一种有效实现方式。
The seamless tiled display that is based on the multi-projector is an effective realization for the wide field and high-resolution display of graph, image, video and so on.
为了解决多投影仪拼接系统中的几何变形与图像融合问题,提出了一种新的自动非线性几何校正和图像边缘融合方法。
In order to solve the problems of geometric warp and overlapping in a multi-projector display system, a new approach for auto-geometric calibration and edge-blending was presented.
在多投影仪曲面显示墙几何校正中需要用数码相机捕获图像反馈信息。
In geometrical calibration for multi-projector display wall, there need to use digital camera to capture image information.
本文还介绍了多投影系统的一个全新应用,即使用多台投影机协作投影显示HDR图像。
We also introduce an absolutely new application of multi-projector system which is projecting HDR image by using several cooperated projectors.
若直接用多色投影数据来重建图像,就会出现射束硬化伪迹,这种硬化伪迹如果不校正就会影响医学诊断和工业检测的结果。
Once this kind of data is used to reconstruct the image directly, beam-hardening artifacts appear in the reconstructed image.
利用运动参数进行投影,然后用多帧相减并求交集,估计出每帧图像中运动物体存在的区域,最后计算得到了全景图。
Project frames with motion parameters, and the intersection of two subtraction results of neighbor frames will give the moving object area. Last we can calculate the panorama image.
利用运动参数进行投影,然后用多帧相减并求交集,估计出每帧图像中运动物体存在的区域,最后计算得到了全景图。
Project frames with motion parameters, and the intersection of two subtraction results of neighbor frames will give the moving object area. Last we can calculate the panorama image.
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