1) retrieved image
补偿像
2) aberration compensation
像差补偿
1.
The further study on aberration compensation in the process of three dimensional imaging is also given in the paper.
从激光共焦扫描显微镜的基本原理出发,深入讨论激光共焦扫描显微镜的深度分辨率和横向分辨率,同时研究三维成像的像差补偿问题。
2.
The aberration is corrected using aberration compensation and balancing.
利用像差补偿及像差平衡方法来校正系统的像差 ,结合实例对门镜系统的像质进行评
3) image motion compensation
像移补偿
1.
Image motion compensation realization of large resolution digital aerial survey camera;
大面阵数字航测相机像移补偿的实现
2.
An image motion compensation method based on uultiphase CCD;
一种基于CCD多电极结构的电子像移补偿方法
3.
Effect of aerocraft attitude on image motion compensation of space camera;
飞行器姿态对空间相机像移补偿的影响
4) image compensation
图像补偿
1.
The orbital drift can be determined by landmarks on the same graph with the target, which can be used in the image compensation scheme.
数学仿真表明该图像补偿方案能够提高在轨飞行器目标定位精度。
2.
It has been successfully applied in the image compensation system of a flying simulator,and it is shown that the method is practicable.
介绍了全数字化测角测速的单片机实现方法 ,并给出了该方法在飞行模拟器图像补偿系统中的应用 ,通过实例证明了该测角测速方法是可行
3.
A fast and intelligent electronic image stabilization method for moving camera devices acquiring stabilized video was presented to solve well the problems of camera jitter automatic detection and image compensation.
首先,通过改进的图像插补算法估计出帧间全局运动参数,设置判别条件,进行抖动检测;然后对发生抖动的序列进行图像补偿,包括抖动补偿和局部运动补偿,从而得到稳定的视频序列。
5) Image Motion Compensation(IMC)
像移补偿
1.
Image motion compensation(IMC) is often used in aerial cameras to improve the quality of imaging.
在研制航空相机时,为提高相机的分辨力,通常都采用像移补偿技术。
2.
5(1 / s) and the TDI stage is no more than 32,the 3σ value of image motion compensation(IMC) error is 16 μm,which can satisfy the requirement of remote sensor.
为分析飞行器的速度、航高、姿态角与姿态变化对推扫式航空遥感器成像质量的影响,采用光线矢量与光轴旋转变换相结合的方法建立了系统的像移模型,计算遥感器像移补偿的精度。
6) compensation astigmatism
像散补偿
1.
%,then considered the compensation astigmatism of the cavity.
在考虑了钛宝石晶体长度以及环形腔像散补偿情况下,当532 nm的抽运光功率为9 W时,得到了最高功率为700 mW的波长为780 nm的单频激光输出。
补充资料:歪曲像差
distortion:歪曲像差
一条直线经过镜头拍摄後,变成弯曲的现象,称为歪曲像差。向对角线往外弯的是「枕状变形」(pincushion),向内弯的是「桶状变形」(barrel)。一支变焦镜头,通常在广角端呈现桶状变形,而在望远端呈现枕状变形。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。