Considering the Airy beams has novel features that different from Gauss laser, which has attracted researchers’ great interest in recent years, and achieved many significant research results. From the perspective of technology and application, this paper combining with the characteristics of remote sensing summarizes the research progress of Airy beams, prospects the possible application prospect in the field of space.
Traditional video imagers require high-speed CCD, we present a new method to implement video imagers with low speed CCD detector imager system based on video compressed. Using low speed CCD detector and transmissive liquid crystal (LC) instead of high speed CCD to get data cube; by the method of data processing method , we make high precision reconstruction of compressed video data, theoretical analysis and experimental result show that it is not ensures the video imaging quality but also reduced the frame rate of the detectors and complexity of video imaging system greatly.
The spectrometers capture large amount of raw and 3-dimensional (3D) spatial-spectral scene information with 2- dimensional (2D) focal plane arrays(FPA). In many applications, including imaging system and video cameras, the Nyquist rate is so high that too many samples result, making compression a precondition to storage or transmission. Compressive sensing theory employs non-adaptive linear projections that preserve the structure of the signal, the signal is then reconstructed from these projections using an optimization process. This article overview the fundamental spectral imagers based on compressive sensing, the coded aperture snapshot spectral imagers (CASSI) and high-resolution imagers via moving random exposure. Besides that, the article propose a new method to implement spectral imagers with linear detector imager systems based on spectrum compressed. The article describes the system introduction and code process, and it illustrates results with real data and imagery. Simulations are shown to illustrate the performance improvement attained by the new model and complexity of the imaging system greatly reduced by using linear detector.
Solar blind UV detecting system has many advantages such as strong environmental adaptability, low error rate, small volume and without refrigeration. To in-depth develop UV solar blind detection system research work has important significance for further improving solar blind UV detection technology. The working principle of solar blind UV detection system and the basic components were introduced firstly, and then the key technology of solar blind UV detection system was deeply analyzed. Finally, large coverage solar blind UV optical imaging system was designed according to the actual demand for greater coverage of the solar blind UV detection system. The result shows that the system has good imaging quality, simple and compact structure. This system can be used in various types of solar blind UV detection system, and is of high application value.