Abstract
Accurate and reliable vehicle velocity estimation is greatly motivated by the increasing demands of high-precision motion control for autonomous vehicles and the decreasing cost of the required multi-axis IMU sensors. A practical estimation method for the longitudinal and lateral velocities of electric vehicles is proposed. Two reliable driving empirical judgements about the velocities are extracted from the signals of the ordinary onboard vehicle sensors, which correct the integral errors of the corresponding kinematic equations on a long timescale. Meanwhile, the additive biases of the measured accelerations are estimated recursively by comparing the integral of the measured accelerations with the difference of the estimated velocities between the adjacent strong empirical correction instants, which further compensates the kinematic integral error on short timescale. The algorithm is verified by both the CarSim-Simulink co-simulation and the controller-in-the-loop test under the CarMaker-RoadBox environment. The results show that the velocities can be accurately and reliably estimated under a wide range of driving conditions without prior knowledge of the tire-model and other unavailable signals or frequently changeable model parameters. The relative estimation error of the longitudinal velocity and the absolute estimation error of the lateral velocity are kept within 2% and 0.5 km/h, respectively.
Highlights
The increasing demands for high precision motion control of autonomous vehicles has led to an urgent need for accurate and reliable vehicle state estimation, and the decreasing cost of high precision sensors, for instance, multi-axis inertial measurement units (IMUs), motivates this effort [1]. accurate and reliable velocity estimation is a general research issue for all kinds of vehicles, it is attractive for electric vehicles
An estimation method for the longitudinal and lateral vehicle velocities fusing with kinematic
An estimation method for the longitudinal and lateral vehicle velocities fusing with kinematic integral and empirical correction on multi-timescales is proposed
Summary
The increasing demands for high precision motion control of autonomous vehicles has led to an urgent need for accurate and reliable vehicle state estimation, and the decreasing cost of high precision sensors, for instance, multi-axis inertial measurement units (IMUs), motivates this effort [1]. Regarding the non-tire-model-based methods [18,19,20,21,22,23,24,25,26,27], the main idea is to use other measured information apart from the IMU signals to complete a fused estimation of the vehicle state. Based on the multi-axis IMU and other ordinary on-board vehicle sensors, we propose a non-tire-model-based estimation method for the vehicle velocities without extra measurements such as GPS. The core innovative idea is to use these empirical judgments to Energies 2019, 12, x FOR PEER REVIEW correct the vehicle velocities that are obtained by the kinematic integral of the IMU signals on a long timescale.
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