Abstract
In an efficient development process, the constantly rising complexity of motor vehicles makes the simulation of vehicle dynamics indispensable. Next to the evaluation of basic driving characteristics like comfort and ride stability, a simulation supports the design and application of vehicle dynamic control systems like anti-lock braking (ABS), traction control (TCS) and vehicle dynamics control (VDC) systems. For this purpose a simulation tool needs to emulate the vehicle as a test environment for the controller application.
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References
Ajluni KK (1989) Rollover Potential of Vehicles on Embankments, Sideslopes, and Other Roadside Features. PUBLIC ROADS 52. S 107–13
Bardini R (2008) Auslegung von Überschlagschutzsystemen für Personenkraftwagen mithilfe der Simulation [Dr.-Ing.]. Dissertation, Universität Duisburg-Essen Düsseldorf: VDI-Verlag
Bardini R, Nagelstraßer M and Wronn O (2007) Applikation, Test und Absicherung einer Überschlagsensorik am Beispiel des neuen BMW X5. VDI Bericht 2013. S 149–67
Coo PJAd, Wismans J and Niboer JJ (1991) Advances in MADYMO Crash Simulations. SAE Technical Paper 910879. S 135–46
Harkey DL (1999) The Effect of Roadside Design on Rollover. In AE Passenger Car Rollover Toptec, San Diego, USA
ISO (2000) ISO 3888-2: Passenger cars—Test track for a severe lane-change manoeuvre—Part 2: Obstacle avoidance. (ed.)
ISO D (1989) 7401: Lateral transient response test methods. in Deutsches Institut für Normung eV, Berlin(ed.)
Lich T and Breitmaier B (2003) Optimierte Überrollsensierung zur frühzeitigen Überschlagerkennung. Automotiv Electronics. Sonderausgabe ATZ/MTZ Automotiv Engineering Partners März 14
Lunze J (2013) Regelungstechnik. Springer—ISBN 978-3-642-29532-4
Mamdani EH and Assilian S (1975) An experiment in linguistic synthesis with a fuzzy logic controller. International journal of man-machine studies 7, —ISBN 0020-7373. S 1–13
Mohamedshah Y and Council F (2007) Synthesis of Rollover Research
Otte DK, C. (2005) Rollover Accidents of Cars in the German Road Traffic—An In-Depth-Analysis of Injury and Deformation Pattern by GIDAS. In 19th International Technical Conference on the Enhanced Safety of Vehicles, Vol. Paper Number 05-0093, Washington, DC
Öttgen O (2005) Zur modellgestützten Entwicklung eines mechatronischen Fahrwerkregelungssystems für Personenkraftwagen Dissertation, Universität Duisburg-Essen, Düsseldorf: VDI-Verlag
Öttgen O and Bertram T (2003) Aktive Beeinflussung des Eigenlenk- und Wankverhaltens eines Pkws. Automatisierungstechnik 51
Öttgen O and Bertram T (2004) Entwicklung eines Sollwertgenerators für fahrdynamische Regelungssysteme. VDI/VDE GMA Fachtagung Steuerung und Regelung von Fahrzeugen und Motoren, AutoReg 2004. VDI-Berichte. S 485–95
Unbehauen H (2008) Regelungstechnik I: Klassische Verfahren zur Analyse und Synthese linearer kontinuierlicher Regelsysteme, Fuzzy-Regelsysteme. Springer DE—ISBN 978-3-8348-9491-5
VDA (2006) VDA Spurwechseltest. (ed.), Verband der Automobilindustrie e. V. (VDA)
Zadeh LA (1973) Outline of a new approach to the analysis of complex systems and decision processes. Systems, Man and Cybernetics, IEEE Transactions on—ISBN 0018-9472. S 28–44
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Schramm, D., Hiller, M., Bardini, R. (2014). Selected Applications. In: Vehicle Dynamics. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-36045-2_14
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DOI: https://doi.org/10.1007/978-3-540-36045-2_14
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