最后用图像修改函数,校正嵌入水印后的图像边缘失真,以维护图像的视觉品质。
Finally with the image amending function, to revise the image edge distortion after embedding watermark, we aim to hold maintenance the vision quality of the image.
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.
为了在曲面屏幕上正确的显示图像,需要在投影前实时地对图像进行几何校正和边缘融合。
The image should be corrected by geometric calibration and edge-blending before projection in order to display image on the curved plane screen correctly.
多屏投影显示系统的关键技术点包括几何校正技术、色彩校正技术以及边缘融合技术。
The key techniques of multi-projector display system include geometry alignment, color correction, and edge blending.
图像的定位和分割主要涉及到倾斜校正算法,图像的边缘检测算法。
Image positioning and segmentation mainly relates to the skew correction algorithm, the image edge detection algorithm.
在对原始输入图像进行直方图校正和边缘保持滤波处理后,对得到的较为平滑的零件图像进行边缘检测。
Detect the edge of smoother accessory image attained after histogram adjusting the original image and holding edge filter.
本文对几何校正和色彩校正技术知识进行了简单地介绍,重点研究对象在图像的边缘融合上。
In this paper, geometric correction and color correction technology knowledge for a brief, focused on the edge of the object in the image of integration.
多屏投影显示系统的关键技术点包括几何校正技术、色彩校正技术以及边缘融合技术。
Multi-screen projection display systems, including the key technical points of the geometric correction, color correction technology and the edge of fusion technology.
多屏投影显示系统的关键技术点包括几何校正技术、色彩校正技术以及边缘融合技术。
Multi-screen projection display systems, including the key technical points of the geometric correction, color correction technology and the edge of fusion technology.
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