Optimization Design of Automotive Handling Stability Based on ADAMS Insight

2026-99-1801

To be published on 07/17/2026

Authors
Abstract
Content
This paper systematically optimizes and validates the handling stability of a vehicle using ADAMS/Car software based on vehicle data provided by a car manufacturer. A comprehensive vehicle dynamics model was established, including a body model, an anti-roll bar model, a powertrain model, a steering subsystem model, and a full vehicle model, with a focus on optimizing suspension parameters such as toe angle and camber angle. Validation was carried out using simulation test methods such as dual-wheel synchronous excitation, steering returnability, and angle step input. The results show significant improvements in the vehicle’s yaw rate, steering force, and torque after optimization, with particular excellence in steering return time and transient response. Additionally, steady-state cornering simulation results indicate that the optimized vehicle has improved body roll stiffness and lateral compliance, with increased understeer, further enhancing stability and response speed during steering. The findings of this study improve the handling stability and safety of vehicles and provide valuable references for future automotive design.
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Citation
Li, D., Zhu, J., Wang, D., Wei, Y., et al., "Optimization Design of Automotive Handling Stability Based on ADAMS Insight," 2025 International Conference on Aircraft Control and Navigation Technology (ACNT 2025), Zhenzhou, China, September 8, 2025, .
Additional Details
Publisher
Published
To be published on Jul 17, 2026
Product Code
2026-99-1801
Content Type
Technical Paper
Language
English