Litcius/Paper detail

Study of a fixed-lag Kalman smoother for input and state estimation in vibrating structures

Ulrika Lagerblad, Henrik Wentzel, Artem Kulachenko

2020Inverse Problems in Science and Engineering14 citationsDOI

Abstract

This paper presents a numerical study of an augmented Kalman filter extended with a fixed-lag smoother. The smoother solves the joint input and state estimation problem based on sparse vibration measurements. Two numerical examples are examined in order to study the influence of model errors and measurement noise on the estimate quality. From simulations of a simply supported beam, it is shown that estimates from the smoother are superior to those of a conventional Kalman filter, both when the level of model error and measurement noise are increased. By studying simulations of a truck component, the improvement due to smoothing over a conventional Kalman filter is shown to be even greater when the model error is present in both the eigenfrequencies and the mode shapes. In addition, a sensitivity analysis of a tuning methodology with the assumption of constant noise covariance matrices is performed. The result indicates that the proposed tuning methodology results in stable estimates with a good trade-off between estimator adaptability and noise sensitivity. The presented approach of tuning and evaluating the estimates is therefore suggested as a guideline for using the fixed-lag smoother when solving input and state estimation problems in vibrating structures.

Topics & Concepts

Kalman filterEstimatorSmoothingControl theory (sociology)Noise (video)Sensitivity (control systems)MathematicsCovarianceFilter (signal processing)Computer scienceStatisticsEngineeringComputer visionElectronic engineeringArtificial intelligenceImage (mathematics)Control (management)Structural Health Monitoring TechniquesProbabilistic and Robust Engineering DesignVehicle Noise and Vibration Control