马里兰州拉普拉塔斯龙卷风路径。
在第4轮比赛的时候,普拉塔斯犯了一个严重的错误,他入水的时候表现不好,只得了49.98分。
In the fourth round, Platas made a serious error, ending up short entering the water. It earned him just 49.98 points.
朱里诺·洛佩兹(Julio Lopez)是一名来自拉普拉塔的关键证人。他在艾切克·勒斯的审判和无期徒刑的判决中起到了关键的作用。
Julio Lopez was a key witness from la Plata, who had played a significant role in the trial and life sentencing of Etchecolatz.
为解决这个问题用拉普拉斯金字塔算法和哈尔变换算法实现了纹理递进传输。
To solve this problem we have implemented the texture progressive transmission with the classic Laplacian pyramid algorithm and the Haar transform algorithm.
实验表明该方法融合结果的均方误差比拉普拉斯金字塔算法和小波变换方法降低约30%- 60%。
The experimental results demonstrate that the MSE (mean square error) reduced by this proposed approach decreases 30% - 60% than that by Laplacian pyramid and discrete wavelet transform approaches.
首先,通过拉普拉斯金字塔变换将源图像分解为各级分辨率的子图像。
Firstly, the source images are decomposed into sub-images at different scales through Laplacian pyramid transform.
为解决这个问题用拉普拉斯金字塔算法和哈尔变换算法实现了纹理递进传输。
To solve this problem we have implemented the texture progressive transmission with the classic Laplacian pyramid.
利用拉普拉斯金字塔分解算法对图像进行多分辨率分析,对分解后的图像采用基于区域特征量测的方法进行融合。
This paper adopts a Laplacian Pyramidal decomposition method to analyze two images, And the decomposed images are fused with the method based on regional features measurement.
实验结果表明本文提出的融合算法的性能优于平均融合算法、基于拉普拉斯塔型分解的融合算法和基于局部能量信息的小波融合算法。
Experiments results show that the proposed fusion algorithm outperforms other fusion algorithms based on averaging, Laplacian pyramid, and wavelet fusion method using local energy.
重点分析了高斯金字塔、拉普拉斯金字塔、对比度金字塔和小波金字塔在图像分解与重构中的原理及其融合算法。
The principle of image decomposition and reconstruction based on Gauss-pyramid, Laplacian-pyramid, contrast-pyramid and wavelet-pyramid is emphatically analyzed, as well as the fusion algorithm.
进球发生在比赛的第12分钟,当时巴西球星面对弗朗西斯科·普拉塔利的防守在球门前踢出了致命的射门。
The goal came on 12 minutes when the Brazilian star took on Francesco Pratali before firing a thunderous shot under the crossbar.
对于边界区域,建立了基于对比度的像素选取方法进行融合处理。实验对比结果表明,该方法明显优于拉普拉斯金字塔融合算法和离散小波变换融合算法。
The part between clear part and blurring one is fused by the choice of the corresponding pixel based on the contrast. The experiments show that the proposed method outperforms them…
对于边界区域,建立了基于对比度的像素选取方法进行融合处理。实验对比结果表明,该方法明显优于拉普拉斯金字塔融合算法和离散小波变换融合算法。
The part between clear part and blurring one is fused by the choice of the corresponding pixel based on the contrast. The experiments show that the proposed method outperforms them…
应用推荐