运动补偿问题是制约机载调频连续波合成孔径雷达(FMCWSAR)实现超高分辨率成像的瓶颈。
The combination of frequency modulated continuous wave(FMCW)technology and synthetic aperture radar(SAR)techniques is often used to obtain ultra-high resolution.
调频连续波合成孔径雷达(SAR)是一种新体制的高分辨率成像雷达,具有体积小,重量轻,耗电少,造价低,分辨率高等优点,非常适合小型化sar的应用。
Frequency modulated continuous wave (FMCW) synthetic aperture radar (SAR) is a light-weight, cost-effective, high-resolution imaging radar, which is suitable for operation on a small flight platform.
利用孔径技术的子帧保护,应用于实际系统,能连续、稳定、可靠的工作。
With the help of subframe protection technique, the actual system works continuously, stably and reliably.
本文讨论一种用于单模光纤模场测量的连续变孔径方法。
This paper discusses a method of continuous variable aperture(CVAFF)to measure the mode-field diameter(MFD)in single-mode fibers.
调频连续波(FM -CW)合成孔径雷达因其体积小、重量轻、成本低及分辨率高等特点越来越受到关注。
There is a growing interest in the frequency modulated continuous wave (FM-CW) SAR for its advantages such as small cubage, light weight, cost-effective and high resolution.
作者对整个过程进行了考察和讨论,并以微棱镜为例进行了实验验证,为进一步制作大数值孔径连续表面微光学元件打下了技术基础。
As an experimental verification and application of this method, the course and result of the fabrication of micro prism array is provided herein, and some phenomena in the process are discussed.
作者对整个过程进行了考察和讨论,并以微棱镜为例进行了实验验证,为进一步制作大数值孔径连续表面微光学元件打下了技术基础。
As an experimental verification and application of this method, the course and result of the fabrication of micro prism array is provided herein, and some phenomena in the process are discussed.
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