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Hauptverfasser: Tsuzuki, Daiki, Ohki, Kentaro
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2403.03104
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author Tsuzuki, Daiki
Ohki, Kentaro
author_facet Tsuzuki, Daiki
Ohki, Kentaro
contents The Kalman-Bucy filter is extensively utilized across various applications. However, its computational complexity increases significantly in large-scale systems. To mitigate this challenge, a low-rank approximated Kalman--Bucy filter was proposed, comprising Oja's principal component flow and a low-dimensional Riccati differential equation. Previously, the estimation error was confirmed solely for linear time-invariant systems with a symmetric system matrix. This study extends the application by eliminating the constraint on the symmetricity of the system matrix and describes the equilibrium points of the Oja flow along with their stability for general matrices. In addition, the domain of attraction for a set of stable equilibrium points is estimated. Based on these findings, we demonstrate that the low-rank approximated Kalman--Bucy filter with a suitable rank maintains a bounded estimation error covariance matrix if the system is controllable and observable.
format Preprint
id arxiv_https___arxiv_org_abs_2403_03104
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Low-rank approximated Kalman-Bucy filters using Oja's principal component flow for linear time-invariant systems
Tsuzuki, Daiki
Ohki, Kentaro
Optimization and Control
Systems and Control
The Kalman-Bucy filter is extensively utilized across various applications. However, its computational complexity increases significantly in large-scale systems. To mitigate this challenge, a low-rank approximated Kalman--Bucy filter was proposed, comprising Oja's principal component flow and a low-dimensional Riccati differential equation. Previously, the estimation error was confirmed solely for linear time-invariant systems with a symmetric system matrix. This study extends the application by eliminating the constraint on the symmetricity of the system matrix and describes the equilibrium points of the Oja flow along with their stability for general matrices. In addition, the domain of attraction for a set of stable equilibrium points is estimated. Based on these findings, we demonstrate that the low-rank approximated Kalman--Bucy filter with a suitable rank maintains a bounded estimation error covariance matrix if the system is controllable and observable.
title Low-rank approximated Kalman-Bucy filters using Oja's principal component flow for linear time-invariant systems
topic Optimization and Control
Systems and Control
url https://arxiv.org/abs/2403.03104