计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2014年
4期
211-214
,共4页
多分量Chirp信号%短时分数阶傅里叶变换%伪魏格纳分布%信号分离
多分量Chirp信號%短時分數階傅裏葉變換%偽魏格納分佈%信號分離
다분량Chirp신호%단시분수계부리협변환%위위격납분포%신호분리
multi-component Chirp signal%short-time fractional Fourier transform%pseudo Wigner-Ville distribution%signal separation
针对加性高斯白噪声背景下多分量Chirp信号的分离问题,采用一种基于短时分数阶傅里叶的伪魏格纳变换来实现对多分量Chirp信号的分离。该方法利用分数阶傅里叶变换四阶中心矩寻找极值点来确定最佳变换域,在最佳变换域对信号进行旋转的短时傅里叶变换,并进行伪魏格纳变换,最后把在时频面得到的冲激信号变换到时域再进行分数阶傅里叶逆变换,实现了多分量Chirp信号的分离。仿真实验证明该方法可有效地实现多分量Chirp信号分离,有助于后续对各分量的参数估计。
針對加性高斯白譟聲揹景下多分量Chirp信號的分離問題,採用一種基于短時分數階傅裏葉的偽魏格納變換來實現對多分量Chirp信號的分離。該方法利用分數階傅裏葉變換四階中心矩尋找極值點來確定最佳變換域,在最佳變換域對信號進行鏇轉的短時傅裏葉變換,併進行偽魏格納變換,最後把在時頻麵得到的遲激信號變換到時域再進行分數階傅裏葉逆變換,實現瞭多分量Chirp信號的分離。倣真實驗證明該方法可有效地實現多分量Chirp信號分離,有助于後續對各分量的參數估計。
침대가성고사백조성배경하다분량Chirp신호적분리문제,채용일충기우단시분수계부리협적위위격납변환래실현대다분량Chirp신호적분리。해방법이용분수계부리협변환사계중심구심조겁치점래학정최가변환역,재최가변환역대신호진행선전적단시부리협변환,병진행위위격납변환,최후파재시빈면득도적충격신호변환도시역재진행분수계부리협역변환,실현료다분량Chirp신호적분리。방진실험증명해방법가유효지실현다분량Chirp신호분리,유조우후속대각분량적삼수고계。
Based on short-time fractional Fourier transform, a new pseudo Wigner-Ville distribution is proposed to analyze and separate multi-component Chirp signal with additive white Gaussian noise. The appropriate fractional domain is found from the knowledge of the forth-order fractional Fourier transform moments. Based on rotated short-time Fourier transform, the proposed pseudo Wigner-Ville distribution preserves the WVD auto-terms and cancels the cross-terms and the noise. The impulse signal is transformed from time-frequency domain to time domain and using inverse fractional Fourier transform to separate multi-component chirp signal. Simulation results show the method can separate multi-component chirp signal with additive white Gaussian noise and is beneficial for parameter estimation.
