排序方式: 共有73条查询结果,搜索用时 204 毫秒
11.
12.
13.
14.
15.
16.
17.
18.
19.
为了解决航空发动机导向叶片数字射线(DR)检测图像信息动态范围大、对比度低、细节信息不明显,缺陷区域难以识别的问题,提出一种改进型限制对比度自适应直方图均衡化(CLAHE)算法。采用CLAHE增强导向叶片DR图像对比度,同时引入基于空间均值滤波器的Gaussian掩模处理,进行DR图像降噪,提取DR图像的低频信息;采用CLAHE增强的图像与提取的DR图像低频信息线性做差,突出DR图像的高频细节信息;与CLAHE增强的图像线性叠加,进一步提高了DR图像的对比度,实现导向叶片DR图像增强。依据图像基本空间分辨率(SRB)、信噪比(SNR)、灰度平均值对DR图像增强效果进行评价。结果表明: 改进的CLAHE算法,可以同时将表征SRB的D13双丝线对应的调制深度值从49.17%提高到了56.08%,整体灰度平均值从32 400.66增加到了38 684.43,02号微小裂纹缺陷的SNR从14.10提升到了15.16。结果显示优化的CLAHE算法,相比自适应直方图均衡化(AHE)等4种经典的航空发动机导向叶片DR图像增强算法,不仅提高了平坦区域对比度,突显了边缘细节信息,而且有效提升了微小缺陷的视觉效果。 相似文献
20.
As the successor of CBERS-01, CBERS-02 was launched successfully on 21October 2003 and transmitted its first downlink data the next day. According to the OBT (On Board Test) outline, CRESDA cooperated with CAST and many remote sensing organizations in China in implementing the test of the satellite payloads, ground processing system and data application. In this paper, the test is briefly illustrated in three parts: Ⅰ. Satellite Parameters Test (especially the test for payloads), Ⅱ. Payload Image Quality Assessment, and Ⅲ. Data Application Assessment. The results of the test show that the image quality of CBERS-02 is much improved over CBERS-01 and will continue to play a more important role in the society and economic development of China. 相似文献