介绍了投影拼接显示系统中的关键技术——边缘融合处理技术。
The key technology of seamless tiling of large-screen projection display system is edge-blending.
然后将图像拼接分为了三个部分:图像分割、图像匹配和边缘融合。
Then the image mosaic is divided into three parts: image segmentation, image registration and fusion edge.
该文介绍一种边缘融合组合屏图像显示系统的结构组成及其工程实现。
This paper introduces the system configuration and its implementation of a multi-screen display system with digital edge blending.
XK4M系列边缘融合处理器支持任意规模的输入和输出,可根据需要自由配置。
XK4M series edge-blending processor supports input and output of any sizes according to the needs.
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.
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.
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.
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.
通过基于软件的几何校准和边缘融合,对多投影机画面进行无缝拼接,形成一个逻辑上统一的大屏幕。
In order to form a large screen, it adopts software-based seamlessly merging solution, which includes geometry calibration and edge blending.
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.
有些标准之间是直接竞争的关系,的确如此,但很多标准是从工作流那种类似于洋葱的层中的其他标准开始定义,而这些标准在层的边缘融合在一起。
Some are directly competing, yes, but many take up where others leave off in workflow's onion-like layers and blend together at the layer edges.
它们改变自己的身体形状,形成不规则的边缘,近乎天衣无缝地和树皮融合在一起。
Modified scales form an irregular edge to the body that blends in nearly seamlessly with the bark.
而在这些边缘地带,有许多小镇聚集、融合,无论是需要时间去做决定的人、确实想定居下来的人还是无需考虑的人都有其足够的容身之处——因为那里不会有围栏。
Where the towns meet and merge there's plenty of space for people who want to take time to decide, or indeed to settle down and never need to, because the truth is that there is no fence.
然后我简单地擦除了图片的边缘,使得图片相互融合。
I then simply erased around the edges to allow the images to bleed into one another.
在数字图像小波多分辨率分析理论基础上,采用小波变换方法对高分辨遥感图像的目标地物边缘进行信息增强,然后与多光谱遥感图像进行特征信息融合。
After the wavelet's multi-resolution analysis, a feature fusion approach was adopted to enhance remote sensing image edge and improve the definition and resolving power of the image.
建筑的形状像一个巨大的陡峭的坡屋顶,让雪从它的边缘漂下,其建筑新形式使它在冬季和滑雪道融合在一起。
The building is shaped like a giant steeply pitched roof that allows snow to drift around its edges, giving it a new form that helps it integrate with the piste during the winter months.
基于小波分解,提出了一种融合算法,该算法在小波分解的子带图像中提取局部边缘信息作为融合规则,较好的实现了两幅互补皮革图像的融合。
Based on wavelet decomposition this paper presented a fusion algorithm, which extracted the local edge info in subband images as fusion rule and fused two leather images with complementarity.
基于模糊矩阵的双光谱图像融合法能比较好地兼顾图像融合中清晰度和融合边缘过渡两方面的要求。
It comes to the conclusion that, double spectrum image fusion method based on fuzzy matrix can better meet the requirements of clarity and fusion fringe transition in the image fusion.
在实际的航空影像上的实验表明,融合区域分割和边缘信息能够提高居民地提取的准确率。
The experimental results on real aerial images shows that the proposed method fusing region and edge data can improve the accuracy of extraction for residential areas.
讨论了基于马尔可夫随机场(MRF)模型的融合颜色和边缘信息的嘴唇特征提取方法。
This paper introduced a MRF (Markov Random Field) -based method of integrating color and spatial edge information to address the problem of lip feature extraction.
对于高频细节图像,采用OMP算法提取和融合边缘和纹理特征。
The OMP method is exploited for capturing and fusing edges and texture features in the high frequency domain.
该算法釆用线状掩模窗口和最优融合估计方法,有效地增强了边缘保持能力和去噪能力,克服了边缘保持滤波器存在的缺陷。
By using linear mask and the optimal fusion estimation, this algorithm improves the ability of edge keeping and denoising effectively, overcomes the disadvantages of the edge keeping filter.
最后通过一定的融合规则进行融合,得到最终的边缘图像。
The final edge images are obtained through a fusion in accordance to certain rules.
从基于象素的SAR图象分类和基于邻域的SAR图象分类特点出发,提出了一种基于边缘检测的SAR图象分类融合方法。
From the characteristic of SAR image classifications based on pixel level and region level, this paper provides a fusion method for SAR image classifications based on edge-detection.
在第三步骤中,将整个对象检测到一种新的融合方法,基于分割图和边缘图。
In the third step, a whole object was detected by a novel fusion method based on segmentation map and edge map.
本文提出了一种基于离散二进小波变换的多尺度边缘检测和图像融合的方法,实现了特征级图像融合。
Regarding this, a novel feature level approach to image fusion is proposed based on discrete dyadic wavelet transform for multi-scale image edge detection.
本文提出了一种基于离散二进小波变换的多尺度边缘检测和图像融合的方法,实现了特征级图像融合。
Regarding this, a novel feature level approach to image fusion is proposed based on discrete dyadic wavelet transform for multi-scale image edge detection.
应用推荐