摘要
对信道的幅度和相位不一致性进行校正是测向定位在工程实现中的重要保障。近年来,出现了很多高性能的测向算法,但这些算法对系统特性较敏感。本文采用有源校正算法来校正当系统特性不理想的情况下带来的通道幅度误差和相位误差,并在高速浮点数字信号处理器TMS320C6711系统上实现了五通道测向处理器有源校正算法,达到了性能指标及实时实现。
The algorithm of active error calibration based on correlation is important to engineering realization of direction finding. In recent years, there have appeared many direction-finding methods, which have high performance. But these methods are very sensitive to the feature of real system, so array channel must be calibrated. This paper uses the algorithm of active error calibration to calibrate amplitude and phase error when the feature of the system is not satisfactory. The algorithm is implemented on high speed float DSP TMS320C6711 and the good performance and real time implementation is achieved.
出处
《电讯技术》
北大核心
2004年第3期116-119,共4页
Telecommunication Engineering
关键词
测向
相关
通道不一致性校正
实时处理
算法
Direction finding
Correlation
Channel uncertainty calibration
Real time implementation
Algorithm
