雷达科学与技术
雷達科學與技術
뢰체과학여기술
RADAR SCIENCE AND TECHNOLOGY
2014年
2期
161-165
,共5页
多相滤波%高速信号%多相分解%信号合成
多相濾波%高速信號%多相分解%信號閤成
다상려파%고속신호%다상분해%신호합성
poly-phase filter%high speed signal%poly-phase decomposition%signal synthesis
在多速率信号处理中,常采用多相滤波结构以有效地降低系统的运算量,提高系统信号处理的实时性。如果采用内插系统的多相滤波结构,在实现过程中受系统时钟频率的约束,将无法实现采样率超过时钟频率的高速率信号的传输。提出了一种基于多相滤波结构的新型高速信号处理算法,对高速信号进行多级多相滤波,从而将信号进行多相分解,采用多通道传输;利用多路低采样率信号得到高采样率的输出信号,并在接收端进行信号合成。具有运算量小、消耗资源少、便于实现等优点,并通过公式推导及仿真结果验证了其正确性,解决了高速率信号受系统时钟频率限制难以实现的问题。
在多速率信號處理中,常採用多相濾波結構以有效地降低繫統的運算量,提高繫統信號處理的實時性。如果採用內插繫統的多相濾波結構,在實現過程中受繫統時鐘頻率的約束,將無法實現採樣率超過時鐘頻率的高速率信號的傳輸。提齣瞭一種基于多相濾波結構的新型高速信號處理算法,對高速信號進行多級多相濾波,從而將信號進行多相分解,採用多通道傳輸;利用多路低採樣率信號得到高採樣率的輸齣信號,併在接收耑進行信號閤成。具有運算量小、消耗資源少、便于實現等優點,併通過公式推導及倣真結果驗證瞭其正確性,解決瞭高速率信號受繫統時鐘頻率限製難以實現的問題。
재다속솔신호처리중,상채용다상려파결구이유효지강저계통적운산량,제고계통신호처리적실시성。여과채용내삽계통적다상려파결구,재실현과정중수계통시종빈솔적약속,장무법실현채양솔초과시종빈솔적고속솔신호적전수。제출료일충기우다상려파결구적신형고속신호처리산법,대고속신호진행다급다상려파,종이장신호진행다상분해,채용다통도전수;이용다로저채양솔신호득도고채양솔적수출신호,병재접수단진행신호합성。구유운산량소、소모자원소、편우실현등우점,병통과공식추도급방진결과험증료기정학성,해결료고속솔신호수계통시종빈솔한제난이실현적문제。
Poly-phase filter is frequently applied in the multiple-rate signal processing,it can effectively reduce the computational complexity of the system and improve the real time performance of digital signal processing.By the constraints of the system clock frequency,its difficult to implement the transmission of the high-speed signal through traditional interpolation system.The high-speed signal can be transported through multi-channel after poly-phase decomposition,based on multilevel and poly-phase filtering.In this way,a high sampling rate signal can be easily obtained by multiple low sampling rate signals.At the receiv-ing end,the signal will be synthesized.This method can reduce resource consumption remarkably and de-crease the system complexity.High-speed signal can be easily achieved without the limit of system clock fre-quency in this method,and it has been verified through derivation and simulation.