电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2013年
12期
2889-2895
,共7页
信号处理%压缩采样%相关幅值估计%信号重构%抗多径
信號處理%壓縮採樣%相關幅值估計%信號重構%抗多徑
신호처리%압축채양%상관폭치고계%신호중구%항다경
Signal processing%Compressed sampling%Auto-correlation amplitude estimation%Signal reconstruction%Multipath mitigation
该文提出一种基于Teager-Kaiser (TK)算子压缩采样与相关幅值估计的GPS抗多径方法。首先通过TK算子对接收信号相关曲线压缩采样以获得初步的多径时延和幅度估计;然后根据所得时延和幅度以及C/A码自相关函数曲线的特征,构造出与各时延位置相对应的多径信号相关曲线,并通过对接收信号相关曲线的重构,获得对各多径信号幅度和时延的进一步估计;最后根据重构估计出的结果,得到相应直达信号(LOS)的幅度和时延估计信息,从而实现 GPS 接收机抗多径的目的。不同情况下的仿真结果表明,该方法抗多径性能要优于常规 GPS 接收机中的窄相关器,同时,考虑到TK算子时延采样取整可能带来的影响,在进行一个采样点修正的情况下,其性能可接近于高分辨率多相关器。
該文提齣一種基于Teager-Kaiser (TK)算子壓縮採樣與相關幅值估計的GPS抗多徑方法。首先通過TK算子對接收信號相關麯線壓縮採樣以穫得初步的多徑時延和幅度估計;然後根據所得時延和幅度以及C/A碼自相關函數麯線的特徵,構造齣與各時延位置相對應的多徑信號相關麯線,併通過對接收信號相關麯線的重構,穫得對各多徑信號幅度和時延的進一步估計;最後根據重構估計齣的結果,得到相應直達信號(LOS)的幅度和時延估計信息,從而實現 GPS 接收機抗多徑的目的。不同情況下的倣真結果錶明,該方法抗多徑性能要優于常規 GPS 接收機中的窄相關器,同時,攷慮到TK算子時延採樣取整可能帶來的影響,在進行一箇採樣點脩正的情況下,其性能可接近于高分辨率多相關器。
해문제출일충기우Teager-Kaiser (TK)산자압축채양여상관폭치고계적GPS항다경방법。수선통과TK산자대접수신호상관곡선압축채양이획득초보적다경시연화폭도고계;연후근거소득시연화폭도이급C/A마자상관함수곡선적특정,구조출여각시연위치상대응적다경신호상관곡선,병통과대접수신호상관곡선적중구,획득대각다경신호폭도화시연적진일보고계;최후근거중구고계출적결과,득도상응직체신호(LOS)적폭도화시연고계신식,종이실현 GPS 접수궤항다경적목적。불동정황하적방진결과표명,해방법항다경성능요우우상규 GPS 접수궤중적착상관기,동시,고필도TK산자시연채양취정가능대래적영향,재진행일개채양점수정적정황하,기성능가접근우고분변솔다상관기。
A method for GPS multipath mitigation is proposed. The general process of the proposed method is that first initial estimations of time delay and amplitude of each multipath are obtained by compressed sampling of the received signal with Teager-Kaiser (TK) operator, and then further estimations of the initial estimated results are got by reconstructing the received signal’s auto-correlation curve. Finally, more precise estimates of amplitude and time delay of the Line-Of-Sight (LOS) signal can be acquired from the previous reconstruction results, and thus the goal of GPS multipath mitigation is achieved. The simulation results under different conditions show that the proposed method outperforms the narrow correlator which is often used in a conventional GPS receiver, and it can also achieve a superior performance as the high resolution correlator can when one sample interval modification is done on the TK time delay estimation results.
