欢迎访问《电讯技术》编辑部网站！

首页 期刊简介编委会征稿启事出版道德声明审稿流程读者订阅论文查重联系我们English

引用本文：

徐成节.一种自适应增强谱线算法的优化设计与实现[J].电讯技术，2012，52（6）： - . [点击复制]
XU Cheng-jie.Optimization design and implementation of adaptive line enhancers[J].，2012，52（6）： - . [点击复制]

本文已被：浏览 2794次下载 1591次	码上扫一扫！
一种自适应增强谱线算法的优化设计与实现
徐成节
0 字体:加大+\|默认\|缩小-
(中国西南电子技术研究所，成都 610036)

摘要:

自适应谱线增强（ALE）算法能够提高高动态、低信噪比信号的载波频率估计精度。针对实际应用中该算法消耗硬件资源多、结构复杂、使用效率低等问题，提出了结合可编程逻辑门阵列（FPGA）优化的ALE算法结构方法，简化了ALE硬件电路。设计结果表明，改进ALE方法后，可实现信噪比为0～20 dBHz、最大多普勒动态为800 H z/s的测控信号载波频率准确估计。

关键词: 测控通信信号载波捕获频率估计自适应谱线增强低信噪比高动态

DOI：

基金项目:

Optimization design and implementation of adaptive line enhancers

XU Cheng-jie

()

Abstract:

The arithmetic of adaptive line enhancers (ALE) can improve carrier frequency es timation accuracy of high dynamic signal with very low signal to noise ratio(SNR ). However, the ALE structure is complex, and hardware resource is extensively c onsumed.To solve above problems, an optimized methed is proposed based on large -scale field programmable gate array(FPGA),which simplifies ALE circuits.It is p roved that by the improved method, the carrier frequency of tracking telemetry a nd command (TT&C)signal can be accurately estimated under the condition of signa l to noise power spectrum density ratio 0～20 dBHz and dynamic doppler rate 800 Hz/s.

Key words: TT&C;signal carrier capture frequency estimation ALE low SNR high dynamic