Abstract
Tire normal forces are difficult to measure, but information on the vehicle normal force can be used in many automotive engineering applications, e.g., rollover detection and vehicle and wheel stability. Previous papers use algebraic equations to estimate the tire normal force. In this article, the estimation of tire normal force is formulated as an input estimation problem. Two observers are proposed to solve this problem by using a quarter-car suspension model. First, the Youla Controller Output Observer framework is presented. It converts the estimation problem into a control problem and produces a Youla parameterized controller as observer. Second, a Kalman filter approach is taken and the input estimation problem is addressed with an Unbiased Minimum Variance Filter. Both methods use accelerometer and suspension deflection sensors to determine the vehicle normal force. The design of the observers is validated in simulation and a sensitivity analysis is performed to evaluate their robustness.
Subject
Energy (miscellaneous),Energy Engineering and Power Technology,Renewable Energy, Sustainability and the Environment,Electrical and Electronic Engineering,Control and Optimization,Engineering (miscellaneous)
Reference24 articles.
1. Integrated Vehicle Dynamics and Control;Chen,2016
2. Estimation of Tire Forces for Application to Vehicle Stability Control;Cho;IEEE Trans. Veh. Technol.,2010
3. Estimation of Wheel-Ground Contact Normal Forces: Experimental Data Validation
4. Vehicle Dynamics Estimation Using Kalman Filtering: Experimental Validation;Doumiati,2013
5. Vehicle Dynamics and Control;Rajamani,2011
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