Title :
Estimation of input pulse locations from the response of an all-pole transfer system using tapered rank reduction
Author :
Kanai, Hiroshi ; Kido, Ken´iti
Author_Institution :
Dept. of Electr. Eng., Tohoku Univ., Sendai, Japan
fDate :
1/1/1991 12:00:00 AM
Abstract :
When ordinary rank reduction is used to remove the characteristics of the transfer system and to estimate the multipulse input time series, the nonsignificant singular values are sharply cut off by low-order truncation if the system Q (quality factor) is high, and then a large ripple occurs around each pulse location. In order to avoid these difficulties, a method is proposed in which the multipulse time series is estimated by a rank reduction using a tapering window in order to suppress the ripple due to the low-order sharp truncation, and then by applying the pole-estimation method to the inverse Fourier transform of the resultant time series. Thus the pulse locations are accurately estimated. By using the pulse locations as the initial estimates, the maximum likelihood estimates of the pulse locations are obtained. From simulation experiments, these principles are confirmed
Keywords :
filtering and prediction theory; parameter estimation; poles and zeros; signal processing; time series; all-pole transfer system; input pulse locations; inverse Fourier transform; low-order sharp truncation; maximum likelihood estimates; multipulse input time series; pole-estimation method; pulse location estimation; ripple suppression; signal processing; tapered rank reduction; tapering window; Additive noise; Associate members; Delay effects; Delay estimation; Fourier transforms; Geophysics; Q factor; Radar; Sensor systems; Speech analysis;
Journal_Title :
Signal Processing, IEEE Transactions on
