Print Email Facebook Twitter Parameter estimation for lateral dynamic tire models using empirical inertial data Title Parameter estimation for lateral dynamic tire models using empirical inertial data: A comparative case study of gradient-based algorithms vs genetic algorithms Author den Hartog, Daniel (TU Delft Mechanical, Maritime and Materials Engineering) Contributor Happee, Riender (mentor) Shyrokau, Barys (mentor) Degree granting institution Delft University of Technology Date 2018-05-02 Abstract Self-driving vehicles are the future of automotive engineering. Systems that take over control from the driver are developed to be able to interact with the conditions of the road and other obstacles. To develop these systems, developers use vehicle models to simulate the behaviour of the moving vehicle. The systems developed using these models are transferred the vehicle and are expected to perform accordingly. Therefore it is important that the vehicle models reflect the behaviour of the actual vehicle.This thesis investigates the methods used to estimate the model parameters which influence the resulting vehicle simulation. Experimental tests were carried out to acquire vehicle body inertial measurement data. This data was used to minimize lateral acceleration and yaw-rate error produced by the output of a single track vehicle model using a simplified Magic formula developed by H. Pacejka.Deterministic gradient-based algorithms, such as multi-objective Sequential Quadratic Programming (SQP), are frequently used as a way to optimize an initial approximation of the model parameter set. It is shown that this initial parameter strongly influences results of the algorithm due to local minima.As an alternative, genetic algorithms were investigated to minimize the influence of the initial parameter set. An adaptive component, Temporal Difference Q Learning (TDQL), was also added to further reduce the input of the user and to increase the performance of the algorithm.Four algorithms, of various complexity, were implemented in Matlab and executed. The performance of the resulting parameter sets, as well as the performance of the algorithms themselves, were analysed and compared. It is concluded in this thesis that the adaptive genetic algorithm performs slightly better than a simple gradient-based algorithm with respect to the objectives and the duration of the algorithm. However, a genetic algorithm without TDQL is recommended for its good performance and the simulation flexibility of the results for this simple vehicle and tire model. Subject Vehicle dynamicsMachine LearningParameter EstimationOptimizationTire DynamicsMagic FormulaAlgorithm To reference this document use: http://resolver.tudelft.nl/uuid:278180cf-809d-4ab2-864b-d1841982c35f Part of collection Student theses Document type master thesis Rights © 2018 Daniel den Hartog Files PDF Master_Thesis_Daniel_den_Hartog.pdf 6.21 MB Close viewer /islandora/object/uuid:278180cf-809d-4ab2-864b-d1841982c35f/datastream/OBJ/view