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- Title
A Novel Kalman Filter Formulation for Improving Tracking Performance of the Extended Kernel RLS.
- Authors
Façanha, Tiago S.; Barreto, Guilherme A.; Costa Filho, José T.
- Abstract
In this paper, two contributions are presented. Firstly, a novel variant of the Kalman filter is developed and used to improve the tracking performance of the extended kernel recursive least squares algorithm (Ex-KRLS). Without resorting to the Riccati equation, the proposed formulation of the Kalman filter relies on principles of optimization and convex duality to obtain a stable quadratic form. It allows for performance and stability efficiency by minimizing the estimation error with the manipulation of a single scalar variable. Secondly, the proposed Kalman filter formulation is embedded into the Ex-KRLS-KF algorithm, an extension of the Ex-KRLS, to further improve its tracking performance. For this purpose, the state model of the proposed Ex-KRLS-KF variant is constructed in the original state space, while the hidden state is then estimated using the proposed Kalman filter formulation. The standard KRLS algorithm learns the measurement model used in hidden state estimation. We show through a comprehensive set of computer experiments that the proposed hybrid algorithm has more flexible state and noise models than competing alternative algorithms. We evaluate the proposed algorithm in two benchmarking tasks (nonlinear Rayleigh multipath channel tracking and Lorenz system modeling) and compare its performance with those provided by the state-of-the-art algorithms.
- Subjects
KALMAN filtering; MULTIPATH channels; RICCATI equation; QUADRATIC forms; TRACKING algorithms; NONLINEAR dynamical systems; LORENZ equations
- Publication
Circuits, Systems & Signal Processing, 2021, Vol 40, Issue 3, p1397
- ISSN
0278-081X
- Publication type
Article
- DOI
10.1007/s00034-020-01533-4