Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics

Martin Schabauer; Andreas Hackl; Christoph Scherndl; Wolfgang Hirschberg; Cornelia Lex

doi:https://doi.org/10.1007/978-3-031-07305-2_88

Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics

Martin Schabauer^*, Andreas Hackl, Christoph Scherndl, Wolfgang Hirschberg, Cornelia Lex

^*Korrespondierende/r Autor/-in für diese Arbeit

Institut für Fahrzeugtechnik (3310)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

Performance, development and validation of vehicle dynamics applications such as anti-lock braking systems (ABS) or indirect tyre pressure monitoring systems (iTPMS) rely on a sufficiently accurate consideration of tyre properties such as transient dynamics and tyre kinematics. Previous investigations showed that the tyre rotation has a distinct effect on the vertical tyre stiffness as well as on the three characteristic tyre radii, the unloaded, static and effective (dynamic) tyre radius. Based on the fundamentals of the TMeasy 5 handling tyre model, an enhanced semi-physical modelling approach was developed to consider rotational speed dependent tyre stiffness and tyre radii in an effective and numerically efficient manner. In the present study, a detailed experimental validation is conducted to verify, evaluate and validate the previously identified rotational speed induced effects and the developed enhanced modelling approach. Based on the results of an extensive tyre testing series, it is shown that the rotational speed induced tyre behaviour can be taken into account effectively by considering a linear dependence of the vertical tyre stiffness and a non-linear progressive one of the unloaded radius on the rotational speed. The resulting rotational speed induced behaviour of the static and effective tyre radius is approximated with sufficient accuracy by the enhanced model. With the presented semi-physical modelling approach and identified rotational speed induced tyre behaviour, applications such as ABS, iTPMS or driving simulators can be enhanced.

Originalsprache	englisch
Titel	Advances in Dynamics of Vehicles on Roads and Tracks II
Untertitel	Proceedings of the 27th Symposium of the International Association of Vehicle System Dynamics, IAVSD 2021, August 17–19, 2021, Saint Petersburg, Russia
Redakteure/-innen	Anna Orlova, David Cole
Erscheinungsort	Cham, Switzerland
Herausgeber (Verlag)	Springer Nature Switzerland AG
Seiten	954-965
Seitenumfang	12
ISBN (elektronisch)	978-3-031-07305-2
ISBN (Print)	978-3-031-07304-5
DOIs	https://doi.org/10.1007/978-3-031-07305-2_88
Publikationsstatus	Veröffentlicht - 6 Aug. 2022
Veranstaltung	27th IAVSD International Symposium on Dynamics of Vehicles on Roads and Tracks: IAVSD 2021 - virtuell, St. Petersburg, Russland Dauer: 17 Aug. 2021 → 19 Aug. 2021 https://iavsd2021.ru

Publikationsreihe

Name	Lecture Notes in Mechanical Engineering
Herausgeber (Verlag)	Springer Nature Switzerland AG
ISSN (Print)	2195-4356
ISSN (elektronisch)	2195-4364

Konferenz

Konferenz	27th IAVSD International Symposium on Dynamics of Vehicles on Roads and Tracks
Kurztitel	IAVSD 2021
Land/Gebiet	Russland
Ort	St. Petersburg
Zeitraum	17/08/21 → 19/08/21
Internetadresse	https://iavsd2021.ru

Schlagwörter

Tyre mechanics
Semi-physical tyre modelling
Influence of tyre rotation
Experimental validation
Tyre testing
Flat track test rig
Vehicle handling dynamics

ASJC Scopus subject areas

Fahrzeugbau
Modellierung und Simulation

Fields of Expertise

Mobility & Production

Treatment code (Nähere Zuordnung)

Basic - Fundamental (Grundlagenforschung)
Experimental

UN SDGs

Dieser Output leistet einen Beitrag zu folgendem(n) Ziel(en) für nachhaltige Entwicklung

Zugriff auf Dokument

https://doi.org/10.1007/978-3-031-07305-2_88Lizenz: CC BY 4.0

Andere Dateien und Links

1 Laufend

DVS: Vehicle Dynamics
Koglbauer, I. V., Lex, C., Shao, L., Semmer, M., Rogic, B., Peer, M., Hackl, A., Sternat, A. S., Schabauer, M., Samiee, S., Eichberger, A., Ager, M., Malić, D., Wohlfahrter, H., Scherndl, C., Magosi, Z. F., Orucevic, F., Puščul, D., Arefnezhad, S., Karoshi, P., Schöttel, C. E., Pandurevic, A., Harcevic, A., Wellershaus, C., Li, H., Mihalj, T., Kanuric, T., Gu, Z., Wallner, D., De Cristofaro, F., Soboleva, K., Nalic, D., Bernsteiner, S., Kraus, H., Zhao, Y., Bodner, J., Bui, D. T., Hirschberg, W., Plöckinger, M. & Khoshnood Sarabi, N.
1/01/11 → …
Projekt: Arbeitsgebiet

2 Mitgliedschaft in Forschungsnetzwerk oder Expertengruppe
1 Konferenz oder Fachtagung (Teilnahme an/Organisation von)
1 Vortrag bei Konferenz oder Fachtagung

27th IAVSD International Symposium on Dynamics of Vehicles on Roads and Tracks
Martin Schabauer (Teilnehmer/-in)
17 Aug. 2021 → 19 Aug. 2021
Aktivität: Teilnahme an / Organisation von › Konferenz oder Fachtagung (Teilnahme an/Organisation von)
Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics
Martin Schabauer (Redner/in)
18 Aug. 2021
Aktivität: Vortrag oder Präsentation › Vortrag bei Konferenz oder Fachtagung › Science to science
International Association for Vehicle System Dynamics (IAVSD) (Externe Organisation)
Martin Schabauer (Mitglied)
2021 → 2025
Aktivität: Mitgliedschaft › Mitgliedschaft in Forschungsnetzwerk oder Expertengruppe

Dieses zitieren

Schabauer, M., Hackl, A., Scherndl, C., Hirschberg, W., & Lex, C. (2022). Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics. in A. Orlova, & D. Cole (Hrsg.), Advances in Dynamics of Vehicles on Roads and Tracks II: Proceedings of the 27th Symposium of the International Association of Vehicle System Dynamics, IAVSD 2021, August 17–19, 2021, Saint Petersburg, Russia (S. 954-965). (Lecture Notes in Mechanical Engineering). Springer Nature Switzerland AG. https://doi.org/10.1007/978-3-031-07305-2_88

Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics. / Schabauer, Martin; Hackl, Andreas; Scherndl, Christoph et al.
Advances in Dynamics of Vehicles on Roads and Tracks II: Proceedings of the 27th Symposium of the International Association of Vehicle System Dynamics, IAVSD 2021, August 17–19, 2021, Saint Petersburg, Russia. Hrsg. / Anna Orlova; David Cole. Cham, Switzerland: Springer Nature Switzerland AG, 2022. S. 954-965 (Lecture Notes in Mechanical Engineering).

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Schabauer, M, Hackl, A, Scherndl, C , Hirschberg, W & Lex, C 2022, Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics. in A Orlova & D Cole (Hrsg.), Advances in Dynamics of Vehicles on Roads and Tracks II: Proceedings of the 27th Symposium of the International Association of Vehicle System Dynamics, IAVSD 2021, August 17–19, 2021, Saint Petersburg, Russia. Lecture Notes in Mechanical Engineering, Springer Nature Switzerland AG, Cham, Switzerland, S. 954-965, 27th IAVSD International Symposium on Dynamics of Vehicles on Roads and Tracks, St. Petersburg, Russland, 17/08/21. https://doi.org/10.1007/978-3-031-07305-2_88

Schabauer M, Hackl A, Scherndl C , Hirschberg W , Lex C. Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics. in Orlova A, Cole D, Hrsg., Advances in Dynamics of Vehicles on Roads and Tracks II: Proceedings of the 27th Symposium of the International Association of Vehicle System Dynamics, IAVSD 2021, August 17–19, 2021, Saint Petersburg, Russia. Cham, Switzerland: Springer Nature Switzerland AG. 2022. S. 954-965. (Lecture Notes in Mechanical Engineering). doi: https://doi.org/10.1007/978-3-031-07305-2_88

Schabauer, Martin ; Hackl, Andreas ; Scherndl, Christoph et al. / Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics. Advances in Dynamics of Vehicles on Roads and Tracks II: Proceedings of the 27th Symposium of the International Association of Vehicle System Dynamics, IAVSD 2021, August 17–19, 2021, Saint Petersburg, Russia. Hrsg. / Anna Orlova ; David Cole. Cham, Switzerland : Springer Nature Switzerland AG, 2022. S. 954-965 (Lecture Notes in Mechanical Engineering).

@inproceedings{9749fb4f63ee48d8a110ec77b8fa28cf,

title = "Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics",

abstract = "Performance, development and validation of vehicle dynamics applications such as anti-lock braking systems (ABS) or indirect tyre pressure monitoring systems (iTPMS) rely on a sufficiently accurate consideration of tyre properties such as transient dynamics and tyre kinematics. Previous investigations showed that the tyre rotation has a distinct effect on the vertical tyre stiffness as well as on the three characteristic tyre radii, the unloaded, static and effective (dynamic) tyre radius. Based on the fundamentals of the TMeasy 5 handling tyre model, an enhanced semi-physical modelling approach was developed to consider rotational speed dependent tyre stiffness and tyre radii in an effective and numerically efficient manner. In the present study, a detailed experimental validation is conducted to verify, evaluate and validate the previously identified rotational speed induced effects and the developed enhanced modelling approach. Based on the results of an extensive tyre testing series, it is shown that the rotational speed induced tyre behaviour can be taken into account effectively by considering a linear dependence of the vertical tyre stiffness and a non-linear progressive one of the unloaded radius on the rotational speed. The resulting rotational speed induced behaviour of the static and effective tyre radius is approximated with sufficient accuracy by the enhanced model. With the presented semi-physical modelling approach and identified rotational speed induced tyre behaviour, applications such as ABS, iTPMS or driving simulators can be enhanced.",

keywords = "Tyre mechanics, Semi-physical tyre modelling, Influence of tyre rotation, Experimental validation, Tyre testing, Flat track test rig, Vehicle handling dynamics, Tyre mechanics, Semi-physical tyre modelling, Influence of tyre rotation, Experimental validation, Tyre testing, Flat track tyre test rig, Vehicle handling dynamics",

author = "Martin Schabauer and Andreas Hackl and Christoph Scherndl and Wolfgang Hirschberg and Cornelia Lex",

year = "2022",

month = aug,

day = "6",

doi = "https://doi.org/10.1007/978-3-031-07305-2_88",

language = "English",

isbn = "978-3-031-07304-5",

series = "Lecture Notes in Mechanical Engineering",

publisher = "Springer Nature Switzerland AG",

pages = "954--965",

editor = "Anna Orlova and David Cole",

booktitle = "Advances in Dynamics of Vehicles on Roads and Tracks II",

address = "Switzerland",

note = "27th IAVSD International Symposium on Dynamics of Vehicles on Roads and Tracks : IAVSD 2021, IAVSD 2021 ; Conference date: 17-08-2021 Through 19-08-2021",

url = "https://iavsd2021.ru",

}

TY - GEN

T1 - Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics

AU - Schabauer, Martin

AU - Hackl, Andreas

AU - Scherndl, Christoph

AU - Hirschberg, Wolfgang

AU - Lex, Cornelia

PY - 2022/8/6

Y1 - 2022/8/6

N2 - Performance, development and validation of vehicle dynamics applications such as anti-lock braking systems (ABS) or indirect tyre pressure monitoring systems (iTPMS) rely on a sufficiently accurate consideration of tyre properties such as transient dynamics and tyre kinematics. Previous investigations showed that the tyre rotation has a distinct effect on the vertical tyre stiffness as well as on the three characteristic tyre radii, the unloaded, static and effective (dynamic) tyre radius. Based on the fundamentals of the TMeasy 5 handling tyre model, an enhanced semi-physical modelling approach was developed to consider rotational speed dependent tyre stiffness and tyre radii in an effective and numerically efficient manner. In the present study, a detailed experimental validation is conducted to verify, evaluate and validate the previously identified rotational speed induced effects and the developed enhanced modelling approach. Based on the results of an extensive tyre testing series, it is shown that the rotational speed induced tyre behaviour can be taken into account effectively by considering a linear dependence of the vertical tyre stiffness and a non-linear progressive one of the unloaded radius on the rotational speed. The resulting rotational speed induced behaviour of the static and effective tyre radius is approximated with sufficient accuracy by the enhanced model. With the presented semi-physical modelling approach and identified rotational speed induced tyre behaviour, applications such as ABS, iTPMS or driving simulators can be enhanced.

AB - Performance, development and validation of vehicle dynamics applications such as anti-lock braking systems (ABS) or indirect tyre pressure monitoring systems (iTPMS) rely on a sufficiently accurate consideration of tyre properties such as transient dynamics and tyre kinematics. Previous investigations showed that the tyre rotation has a distinct effect on the vertical tyre stiffness as well as on the three characteristic tyre radii, the unloaded, static and effective (dynamic) tyre radius. Based on the fundamentals of the TMeasy 5 handling tyre model, an enhanced semi-physical modelling approach was developed to consider rotational speed dependent tyre stiffness and tyre radii in an effective and numerically efficient manner. In the present study, a detailed experimental validation is conducted to verify, evaluate and validate the previously identified rotational speed induced effects and the developed enhanced modelling approach. Based on the results of an extensive tyre testing series, it is shown that the rotational speed induced tyre behaviour can be taken into account effectively by considering a linear dependence of the vertical tyre stiffness and a non-linear progressive one of the unloaded radius on the rotational speed. The resulting rotational speed induced behaviour of the static and effective tyre radius is approximated with sufficient accuracy by the enhanced model. With the presented semi-physical modelling approach and identified rotational speed induced tyre behaviour, applications such as ABS, iTPMS or driving simulators can be enhanced.

KW - Tyre mechanics

KW - Semi-physical tyre modelling

KW - Influence of tyre rotation

KW - Experimental validation

KW - Tyre testing

KW - Flat track test rig

KW - Vehicle handling dynamics

KW - Tyre mechanics

KW - Semi-physical tyre modelling

KW - Influence of tyre rotation

KW - Experimental validation

KW - Tyre testing

KW - Flat track tyre test rig

KW - Vehicle handling dynamics

UR - https://iavsd2021.ru

UR - http://www.scopus.com/inward/record.url?scp=85136916376&partnerID=8YFLogxK

U2 - https://doi.org/10.1007/978-3-031-07305-2_88

DO - https://doi.org/10.1007/978-3-031-07305-2_88

M3 - Conference paper

SN - 978-3-031-07304-5

T3 - Lecture Notes in Mechanical Engineering

SP - 954

EP - 965

BT - Advances in Dynamics of Vehicles on Roads and Tracks II

A2 - Orlova, Anna

A2 - Cole, David

PB - Springer Nature Switzerland AG

CY - Cham, Switzerland

T2 - 27th IAVSD International Symposium on Dynamics of Vehicles on Roads and Tracks

Y2 - 17 August 2021 through 19 August 2021

ER -

Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics

Abstract

Publikationsreihe

Konferenz

Schlagwörter

ASJC Scopus subject areas

Fields of Expertise

Treatment code (Nähere Zuordnung)

UN SDGs

Zugriff auf Dokument

Andere Dateien und Links

Fingerprint

Projekte

DVS: Vehicle Dynamics

Aktivitäten

27th IAVSD International Symposium on Dynamics of Vehicles on Roads and Tracks

Experimental Validation of a Semi-physical Modelling Approach of the Influence of Tyre Rotation on the Vertical Tyre Force Transmission and Tyre Kinematics

International Association for Vehicle System Dynamics (IAVSD) (Externe Organisation)

Dieses zitieren