To achieve high range resolution, SAR systems utilize wide-bandwidth signals, typically Linear Frequency Modulated (LFM) chirps. The transmitted signal $s_t(t)$ is defined as: $$ s_t(t) = \textrect\left(\fractT_p\right) \exp\left(j 2\pi f_c t + j \pi K_r t^2\right) $$ Where:
Algorithms, Implementation Strategies, and Signal Flow
Modern SAR data processing follows a standardized pipeline to ensure data is georeferenced and radiometrically accurate: Digital Processing of Synthetic Aperture Radar Data
To achieve high range resolution, SAR systems utilize wide-bandwidth signals, typically Linear Frequency Modulated (LFM) chirps. The transmitted signal $s_t(t)$ is defined as: $$ s_t(t) = \textrect\left(\fractT_p\right) \exp\left(j 2\pi f_c t + j \pi K_r t^2\right) $$ Where:
Algorithms, Implementation Strategies, and Signal Flow digital processing of synthetic aperture radar data pdf
Modern SAR data processing follows a standardized pipeline to ensure data is georeferenced and radiometrically accurate: Digital Processing of Synthetic Aperture Radar Data To achieve high range resolution, SAR systems utilize