Study on processing synthetic aperture radar data based on an optical 4f system for fast imaging

Abstract: Due to the huge amount of collected echo data caused by the working principle of synthetic aperture radar (SAR), the use of digital processing relies heavily on the performance of digital chips. Because of the limitation of Moore’s law, the technology of digital signal processing exposes the limitation of computing speed and power consumption in the face of SAR processing. Against this background, the optical processing method based on the optical 4f system is introduced into SAR imaging. A spatial light modul… Show more

“…Nevertheless, optical systems retain the characteristics of parallelism, high speed, and low power consumption, making them well suited for various applications. Furthermore, the emergence of modern photoelectric devices, such as spatial light modulators (SLMs), facilitated the development of novel SAR optical or photoelectric cooperative processing systems [35][36][37]. Therefore, our preference leans toward optical imaging.…”

Optical Imaging Method of Synthetic-Aperture Radar for Moving Targets

“…Nevertheless, optical systems retain the characteristics of parallelism, high speed, and low power consumption, making them well suited for various applications. Furthermore, the emergence of modern photoelectric devices, such as spatial light modulators (SLMs), facilitated the development of novel SAR optical or photoelectric cooperative processing systems [35][36][37]. Therefore, our preference leans toward optical imaging.…”

Optical Imaging Method of Synthetic-Aperture Radar for Moving Targets

Compact optical real-time imaging system for high-resolution SAR data based on autofocusing

Towards constructing a DOE-based practical optical neural system for ship recognition in remote sensing images