Title :
One-pass minimum-variance deconvolution algorithms
Author :
Wang, Li Xin ; Dai, Guan-Zhong ; Mendel, Jerry M.
Author_Institution :
Dept. of Comput. Sci. & Eng., Northwestern Polytech. Univ., Xian, China
fDate :
3/1/1990 12:00:00 AM
Abstract :
The authors propose novel one-pass minimum-variance deconvolution (MVD) algorithms which give the MV estimate, or the approximate MV estimate, of a system´s input sequence by means of just one reversed-time filter. They develop the one-pass MVD algorithm in two steps. First, by projecting the input sequence into the space spanned by the future states, they obtain a reversed-time Markov model. Then, by running a Kalman filter for this model, they obtain the MV estimate of the input sequence. In order to avoid the high computational load of the optimal algorithm, a one-pass approximate MVD algorithm which gives almost the same results as the optimal algorithm is developed. Storage requirements and operation counts of J.M. Mendel´s (1983) two-pass MVD algorithm and the proposed one-pass approximate MVD algorithm are analyzed for the case of a single-channel system in controllable canonical form. The results are of interest in connection with the seismic deconvolution problem
Keywords :
Kalman filters; filtering and prediction theory; information theory; optimisation; Kalman filter; Markov model; one-pass minimum-variance deconvolution; reversed-time filter; seismic deconvolution problem; single-channel system; Acceleration; Current measurement; Deconvolution; Filters; Gain measurement; Gravity; Kinematics; Stability; State estimation; Target tracking;
Journal_Title :
Automatic Control, IEEE Transactions on
