Finally microscanning performance is analyzed. Microscanning is an effective technique that allows to improving the resolution and imagery of a given staring array imager.
最后 ,对微扫描的性能进行了分析 ,表明了它是一种提高系统空间分辨率、改善成像质量的有效途径。
参考来源 - 一种提高系统分辨率、改善图像质量的技术——微扫描Based on the micro-scanning technology, multi-frame super-resolution reconstruction algorithms utilize airspace and time domain’s additional information in image sequence, their reconstruction effect is better than traditional single-frame algorithms.
以微扫描技术为基础,利用图像序列中的附加空域和时域信息的多帧图像超分辨率重建算法,其仿真重建效果优于传统的基于单帧图像算法。
参考来源 - 红外图像超分辨率重建的仿真研究From the result of simulation through computer the technique of microscanning can effectively reduce the aliasing effect and improve the final resolution of the image.
通过理论和计算机仿真分析可知,微扫描能有效的减小频谱混淆,提高图像分辨率。
参考来源 - 红外凝视系统中的微扫描技术·2,447,543篇论文数据,部分数据来源于NoteExpress
微扫描技术是在现有红外探测器基础上提升空间分辨率的一种有效方法。
Microscan is an effective way to improve imaging spatial resolution upon present-existing infrared sensors.
为改善已研制光学微扫描显微热成像系统的空间分辩力,微扫描零点需要确定。
In order to improve the spatial resolution of the optical microscanning thermal microscopic system, the zero of microscanning should be determined to complete the oversample reconstruction.
由于微扫描利用了同一景象的序列图像之间不同却相互补充的信息,可以更好的重建原始图像。
Due to the fact technique of microscanning makes use of the compensative information between each single image with different order, the information of the original image can be recovered very well.
应用推荐