完成了基于此硬件平台上的并行线性调频雷达信号处理算法。
With comparing several popular parallel DSP platforms, finally adopt the hardware and software project made up of ADI-TS201.
此数据结构的特点如下:将复数和矩阵设置为基本的数据形式,便于雷达信号处理算法的实现;
The main characters of this data structure include that: Set the complex data and matrix as the basic data unit, which can implement the algorithms of signal processing more conveniently;
在此平台的基础上通过对信号处理算法的并行设计,以及对处理任务的合理分配,实现了高速实时雷达信号处理。
Then, basing on this platform, a high speed real-time digital signal processing of radar is carried out, making good use of the parallel design of algorithm and a reasonable assignment of tasks.
雷达数字化接收机的理论基础是采样理论、信号正交变换、多速率信号处理以及高效的数字信号处理算法。
The theoretic of radar digital receiver are sampling, signal orthogonal transform, multirate digital signal processing, DSP algorithm with high efficiency, etc.
介绍了高分辨率合成孔径雷达实时信号处理机硬件结构和实时信号处理算法及流程。
The hardware structure and algorithm flow of real-time signal processor for UAV SAR is introduced in the paper.
介绍了高分辨率合成孔径雷达实时信号处理机硬件结构和实时信号处理算法及流程。
The hardware structure and algorithm flow of real-time signal processor for UAV SAR is introduced in the paper.
应用推荐