Litcius/Paper detail

Adaptive Kalman Filtering: Measurement and Process Noise Covariance Estimation Using Kalman Smoothing

Tobias Kruse, Thomas Griebel, Knut Graichen

2025IEEE Access22 citationsDOIOpen Access PDF

Abstract

The Kalman filter is one of the best-known and most frequently used methods for dynamic state estimation. In addition to a measurement and state transition model, the Kalman filter requires knowledge about the covariance of the measurement and process noise. However, the noise covariances are mostly unknown and may vary during the application. Adaptive Kalman filters solve this problem by estimating the noise covariances online to improve the state estimation. Existing methods are often limited in their application because they are designed to adapt only the measurement noise or the process noise covariance and tend to diverge when both are unknown. Moreover, most methods provide no or only local convergence results, which implies that a poor initialization can adversely affect the estimation of the noise covariances, leading to a deteriorated state estimation. This paper introduces a novel adaptive Kalman filter based on additional Kalman smoothing and analytically derived covariance estimators. Firstly, the unbiased measurement and process noise covariance estimators are derived from the maximum a posteriori formulation of the Kalman smoother. Then, based on these estimators, which depend on the system formulation and the state estimates of the Kalman smoother, the adaptive Kalman filter algorithm is presented. The convergence of the derived estimators can be shown for time-invariant systems for one-dimensional measurement and process noise. For higher-dimensional problems, the convergence can be tested simulatively for the specific dynamical system. A detailed evaluation of various simulation scenarios is presented, demonstrating the accuracy and robustness of the proposed method.

Topics & Concepts

Kalman filterCovariance intersectionInvariant extended Kalman filterFast Kalman filterCovarianceExtended Kalman filterComputer scienceEstimatorEnsemble Kalman filterControl theory (sociology)SmoothingNoise (video)Noise measurementAlgorithmMathematicsStatisticsArtificial intelligenceNoise reductionControl (management)Image (mathematics)Computer visionTarget Tracking and Data Fusion in Sensor NetworksFault Detection and Control SystemsControl Systems and Identification