Vehicle sideslip angle measurement based on sensor data fusion using an integrated ANFIS and an Unscented Kalman Filter algorithm

Vehicle sideslip angle measurement based on sensor data fusion using an integrated ANFIS and an Unscented Kalman Filter algorithm

Most existing ESC (Electronic Stability Control) systems rely on the measurement of both yaw rate and sideslip angle. However, one of the main issues is that the sideslip angle cannot be measured directly because the sensors are too expensive. For this reason, sideslip angle estimation has been wide...

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Veröffentlicht in:Mechanical systems and signal processing 2016-05, Vol.72-73, p.832-845
Hauptverfasser: Boada, B.L., Boada, M.J.L., Diaz, V.
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Sprache:eng
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Adaptive Neuro-Fuzzy Inference System
Estimates
Estimation
Estimators
Kalman filters
Modelling
Nonlinear dynamics
Sensors
Sideslip
Sideslip angle
Unscented Kalman Filter
Vehicle dynamics
Vehicles
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Diaz, V.
description Most existing ESC (Electronic Stability Control) systems rely on the measurement of both yaw rate and sideslip angle. However, one of the main issues is that the sideslip angle cannot be measured directly because the sensors are too expensive. For this reason, sideslip angle estimation has been widely discussed in the relevant literature. The modeling of sideslip angle is complex due to the non-linear dynamics of the vehicle. In this paper, we propose a novel observer based on ANFIS, combined with Kalman Filters in order to estimate the sideslip angle, which in turn is used to control the vehicle dynamics and improve its behavior. For this reason, low-cost sensor measurements which are integrated into the actual vehicle and executed in real time have to be used. The ANFIS system estimates a “pseudo-sideslip angle” through parameters which are easily measured, using sensors equipped in actual vehicles (inertial sensors and steering wheel sensors); this value is introduced in UKF in order to filter noise and to minimize the variance of the estimation mean square error. The estimator has been validated by comparing the observed proposal with the values provided by the CARSIM model, which is a piece of experimentally validated software. The advantage of this estimation is the modeling of the non-linear dynamics of the vehicle, by means of signals which are directly measured from vehicle sensors. The results show the effectiveness of the proposed ANFIS+UKF-based sideslip angle estimator. •A novel vehicle sideslip angle observer based on ANFIS and UKF is proposed.•The ANFIS system estimates a “pseudo-sideslip angle”•The “pseudo-sideslip angle” is introduced in UKF to minimize the noise.•The observer inputs are easily measured by sensors incorporated in current vehicles.Different maneuvers and road conditions are considered to prove the effectiveness.
doi_str_mv 10.1016/j.ymssp.2015.11.003
format Article
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subjects Adaptive Neuro-Fuzzy Inference System
Estimates
Estimation
Estimators
Kalman filters
Modelling
Nonlinear dynamics
Sensors
Sideslip
Sideslip angle
Unscented Kalman Filter
Vehicle dynamics
Vehicles
title Vehicle sideslip angle measurement based on sensor data fusion using an integrated ANFIS and an Unscented Kalman Filter algorithm
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