电子学报
電子學報
전자학보
ACTA ELECTRONICA SINICA
2014年
11期
2213-2218
,共6页
王洪希%杨卫东%田伟
王洪希%楊衛東%田偉
왕홍희%양위동%전위
Root-MUSIC%高阶累积量%Prony法%轧辊偏心谐波%参数估计
Root-MUSIC%高階纍積量%Prony法%軋輥偏心諧波%參數估計
Root-MUSIC%고계루적량%Prony법%알곤편심해파%삼수고계
root-MUSIC%higher-order cumulants%Prony%the roll eccentricity signal%parameter estimation
针对轧辊偏心信号是混杂在各种随机干扰中含有多次谐波的复杂高频周期信号,以及FFT (Fast Fourier Transform)法对轧辊偏心信号分析的局限性,研究了一种基于四阶累积量的Root-MUSIC(Multiple Signal Classification)法和Prony法相结合的轧辊偏心信号估计新方法。利用基于四阶累积量的Root-MUSIC法准确估计出偏心谐波的频率及谐波的个数,同时由Root-MUSIC求得的根直接使用Prony方法估计出偏心信号的各次谐波幅值和相位。仿真结果和实验结果也验证了结合方法的可行性和有效性,在信噪比较低的情况下仍具有较高的频谱分辨率和估计精度,能准确地同时估计出偏心谐波的频率、幅值及相位,尤其在频率分辨率和抗噪声上具有FFT法无法比拟的优越性。
針對軋輥偏心信號是混雜在各種隨機榦擾中含有多次諧波的複雜高頻週期信號,以及FFT (Fast Fourier Transform)法對軋輥偏心信號分析的跼限性,研究瞭一種基于四階纍積量的Root-MUSIC(Multiple Signal Classification)法和Prony法相結閤的軋輥偏心信號估計新方法。利用基于四階纍積量的Root-MUSIC法準確估計齣偏心諧波的頻率及諧波的箇數,同時由Root-MUSIC求得的根直接使用Prony方法估計齣偏心信號的各次諧波幅值和相位。倣真結果和實驗結果也驗證瞭結閤方法的可行性和有效性,在信譟比較低的情況下仍具有較高的頻譜分辨率和估計精度,能準確地同時估計齣偏心諧波的頻率、幅值及相位,尤其在頻率分辨率和抗譟聲上具有FFT法無法比擬的優越性。
침대알곤편심신호시혼잡재각충수궤간우중함유다차해파적복잡고빈주기신호,이급FFT (Fast Fourier Transform)법대알곤편심신호분석적국한성,연구료일충기우사계루적량적Root-MUSIC(Multiple Signal Classification)법화Prony법상결합적알곤편심신호고계신방법。이용기우사계루적량적Root-MUSIC법준학고계출편심해파적빈솔급해파적개수,동시유Root-MUSIC구득적근직접사용Prony방법고계출편심신호적각차해파폭치화상위。방진결과화실험결과야험증료결합방법적가행성화유효성,재신조비교저적정황하잉구유교고적빈보분변솔화고계정도,능준학지동시고계출편심해파적빈솔、폭치급상위,우기재빈솔분변솔화항조성상구유FFT법무법비의적우월성。
The roll eccentricity signal was complex high frequency periodic signal which is mixed in a variety of random dis-turbance .As the method of FFT (Fast Fourier Transform ) is limitations for analyzing the roll eccentricity signal ,in this article a new method is presented that is the combination of Root-Multiple Signal Classification (Root-MUSIC ) based on higher-order cumulans (HOC ) and Prony method .Using Root-MUSIC of HOC accurately estimate the harmonic frequencies and harmonic number in the meantime the roots which were obtained by the Root-MUSIC directly estimate the harmonic amplitude and phase by using Prony method .The simulation results and experimental results showed that the method is feasibility and effectiveness .In the case of low SNR it still has high spectral resolution and estimation accuracy and can estimate eccentric harmonic frequency amplitude and phase .The advantages of this approach is outstanding than FFT in the frequency resolution and restraining noise .
