Title :
Optimal FIR filters for time-varying state-space models
Author :
Kwon, Wook Hyun ; Lee, Kyu Seung ; Kwon, O.K.
Author_Institution :
Seoul Nat. Univ., South Korea
fDate :
11/1/1990 12:00:00 AM
Abstract :
An optimal FIR (finite impulse response) filter and smoother is introduced for the time-varying state-space model. The suggested filter has an FIR structure and utilizes finite observation. It is shown that the impulse response of the optimal FIR filter can be obtained by a simple Riccati-type matrix differential equation. Especially for time-invariant systems, this FIR filter reduces to previously known simple forms. For implementation, a recursive form of the optimal FIR filter and smoother is derived by using adjoint variables, and computational algorithms are suggested. It is also shown by sensitivity analysis that the proposed optimal FIR filter alleviates potential divergence characteristics of the standard Kalman filter
Keywords :
Kalman filters; circuit CAD; computerised signal processing; differential equations; filtering and prediction theory; matrix algebra; signal detection; smoothing circuits; state-space methods; Riccati-type matrix differential equation; computational algorithms; divergence characteristics; finite impulse response filter; optimal FIR filter; recursive filter; sensitivity analysis; smoother; time-invariant systems; time-varying state-space models; tracking; Automatic control; Control systems; Differential equations; Finite impulse response filter; Performance gain; Quantization; Riccati equations; Roundoff errors; Sensitivity analysis; Time varying systems;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
