Validation of longer and heavier vehicle combination simulation models

K. Kural, A. Prati, I.J.M. Besselink, J.P. Pauwelussen, H. Nijmeijer

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

4 Citations (Scopus)
17 Downloads (Pure)

Abstract

This paper discusses the development and subsequent validation process of generic multi-body models for commercial vehicle combinations. The model is intended for performance assessment and improving of current and future combinations for the European road network. A second goal is to employ the model for the development of driver support systems and active steering strategies for both low speed manoeuvrability and high speed stability. The model is developed in SimMechanics, which is part of the MATLAB/Simulink software. Due to its modularity, one can quickly modify the model to the desired configuration and dimensions; therefore various multi articulation vehicle models can be created. The paper further illustrates the simplified and generic modelling methods used to build particular components such as chassis, tyres or suspension in the multibody domain. A stepwise approach of the model validation is presented, followed by a sensitivity analysis illustrating the effect of the selected vehicle parameters on particular vehicle states. To conclude, the approach is applied to the validation of the simulation model using measurement data obtained from experimental testing of two different vehicle combinations.
Original languageEnglish
Title of host publicationProceedings of the SAE Commercial Vehicle Engineering Congress, 30 September - 3 October 20213, Rosemont, Illinois
Pages340-352
DOIs
Publication statusPublished - 2013
Eventconference; SAE Commercial Vehicle Engineering Congress; 2013-09-30; 2013-10-03 -
Duration: 30 Sep 20133 Oct 2013

Publication series

NameSAE International Journal of Commercial Vehicles
PublisherSociety of Automotive Engineers (SAE)
Number2
Volume6
ISSN (Print)1946-391X

Conference

Conferenceconference; SAE Commercial Vehicle Engineering Congress; 2013-09-30; 2013-10-03
Period30/09/133/10/13
OtherSAE Commercial Vehicle Engineering Congress

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