FKFS Events

2025 Stuttgart International Symposium
on Automotive and Engine Technology

2 - 3 July 2025

Session: Chassis Systems | | 11:00 - 11:30

Simulation of Real Wheel Steering on Test Benches for Proactive Error Detection

Lennart Kopp, Hochschule Aalen - Technik und Wirtschaft

The automotive industry is continuously evolving, demanding innovative approaches to enhance testing methodologies and preventive identify potential issues. This paper proposes an advancement test approach in the area of the overall vehicle system included steering system and power train on a “Road to Rig” test bench. The research aims to revolutionize the conventional testing process by identifying faults at an early stage and eliminating the need to rely solely on field tests. The motivation behind this research is to optimize the test bench setup and bring it even closer to real field tests. Key highlights of the publication include the introduction of an expanded load spectrum, incorporating both steering angle and speed parameters along the test track. The load includes different route and driving profiles like on a freeway, overland and city drive in combination with the steering angles. Furthermore, for the first time, specific driving manoeuvres such as slalom driving and autonomous parking can be simulated and tested. Also, there are three critical driving scenarios like the standardized severe lane-change manoeuvre, emergency braking and a s-curve ride on the traction border. This innovative approach not only refines the accuracy of steering simulations but also provides a comprehensive representation of real-world driving conditions. The paper also outlines the development and verification of a design specifically tailored for the test bench environment. This comprehensive approach ensures the reliability and applicability of the proposed steering simulation methodology. The integration of multibody simulations further enhances the study by elucidating the individual component loads. By offering a novel and efficient means of error detection, this research contributes significantly to advancing the field. The incorporation of an extended load spectrum, coupled with the design of the steering test bench and multibody simulations lay an innovative foundation for further investigations.