Title :
QR-decomposition-based least-squares lattice interpolators
Author_Institution :
Dept. of Electron. Eng., Fu Jen Catholic Univ., Taipei, Taiwan
fDate :
1/1/2000 12:00:00 AM
Abstract :
QR-decomposition-based least-squares lattice (QRD-LSL) predictors have been extensively applied in the design of order-recursive adaptive filters. This work presents QRD-LSL interpolators that use both past and future data samples to estimate the present data sample based on a novel decoupling property. We show that the order-recursive QRD-LSL interpolators display better numerical properties and achieve a higher level of computational efficiency than the conventional LSL interpolators. Except for an overall delay needed for physical realization, QRD-LSL interpolators can substantially outperform QRD-LSL predictors while retaining all the desirable features of the latter
Keywords :
adaptive filters; adaptive signal processing; filtering theory; interpolation; matrix decomposition; prediction theory; recursive estimation; signal sampling; QR-decomposition; QRD-LSL predictors; computational efficiency; decoupling property; delay; future data samples; least-squares lattice interpolators; numerical properties; order-recursive QRD-LSL interpolators; order-recursive adaptive filters; past data samples; Adaptive filters; Arithmetic; Computational efficiency; Delay; Displays; Filtering; Interpolation; Lattices; Robustness; Signal processing;
Journal_Title :
Signal Processing, IEEE Transactions on
