A New Correlation Approach for Body Distortion of a Complete Vehicle Using MBD and Test Results
Paper in proceeding, 2026

By using a fully trimmed vehicle body as flexible body, imported through a Modal Neutral File (MNF), in a complete vehicle Multibody Dynamics (MBD) analysis, the simulation setup gets considerably closer to the test conditions compared to only using a linear Finite Element Method (FEM) approach. Since the MBD analysis includes gravity, rigid body modes of the vehicle and the nonlinear behavior of the wheel suspension, it brings the correlation between simulation and test to a new and more comprehensive level.
As correlation criteria, the results of the so-called Multi Stethoscope (MSS) are used. The MSS captures the time history of distortion in all body openings and cross sections and enables a detailed stiffness evaluation of the body using the so-called Opening Distortion Fingerprint (ODF). The ODF gives the quasi-static response while the Operational Deflection Shape (ODS), which is another result of the MSS measurements, reflects the dynamic response.
Apart from the different individual steps of this new correlation approach, the paper highlights the importance of considering Component Mode Synthesis (CMS) when embedding and evaluating a linear FE model of the fully trimmed body in the nonlinear MBD environment through an MNF. An example of CMS using the Craig-Bampton method shows the impact of the different parameters included in the CMS. Furthermore, a new graphical feature in combination with the ODS is presented which enhances correlation capability. Finally, an example shows how this new correlation approach can improve the simulation model of a newly developed robotaxi for Waymo.

Solidity

vehicle body stiffness

Multi Stethoscope (MSS)

complete vehicle test

Multi Body Dynamics (MBD)

Operational Deflection Shape (ODS)

correlation

Opening Distortion Fingerprint (ODF)

E-line method

Complete vehicle simulation

Author

Lisa Lindqvist

Saab

Emma Olger

Knightec AB

Petri Piiroinen

Chalmers, Mechanics and Maritime Sciences (M2), Dynamics

John Karypidid

BETA CAE Systems S.A.

Milton Pena

BETA CAE Systems S.A.

Jesper Bäcklund

BETA CAE Systems S.A.

Peter Appelgren

BETA CAE Systems S.A.

Henrik Marberg

Marberg Engineering AB

Pravin Ugale

Geely

Jens Weber

Geely

SAE Technical Papers

01487191 (ISSN) 26883627 (eISSN)

2026-01-0680

14th International Styrian Noise, Vibration & Harshness Congress: The European Automotive Noise Conference
Graz, Austria,

Areas of Advance

Transport

Subject Categories (SSIF 2025)

Solid and Structural Mechanics

DOI

10.4271/2026-01-0680

More information

Latest update

7/6/2026 7