Article: Simulation and experimental evaluations on the performance of pneumatically actuated active roll control suspension system for improving vehicle lateral dynamics performance Journal: International Journal of Vehicle Design (IJVD) 2014 Vol.64 No.1 pp.72 - 100 Abstract: This paper presents the derivation of a full vehicle model which consists of ride, handling and tyre subsystems to study vehicle dynamics behaviour in the lateral direction. The full vehicle model is then validated experimentally using an instrumented experimental vehicle based on steering wheel input from the driver. Three types of vehicle dynamics test were performed for model validation, namely step steer, slalom and double lane change tests. The validation results show that the behaviours of the model are similar to the real vehicle with acceptable error. An Active Roll Control (ARC) suspension system was developed using the validated full vehicle model to reduce unwanted vehicle motions during steering input manoeuvres such as body roll angle, body roll rate, vertical acceleration of the body and body heave. The proposed controller for the ARC system is a combination of Proportional-Integral-Derivative (PID) control with roll moment rejection loop. The results of the study show that the proposed control structure significantly improves the dynamics performance of the vehicle during step steer, slalom and double lane change manoeuvres compared with a passive vehicle system. The additional roll moment rejection loop is found to be able to further improve the performance of the PID ARC system. The effectiveness of the ARC system with the proposed control was also proven experimentally using the instrumented experimental vehicle. Inderscience Publishers - linking academia, business and industry through research

Title: Simulation and experimental evaluations on the performance of pneumatically actuated active roll control suspension system for improving vehicle lateral dynamics performance

Authors: Khisbullah Hudha; Zulkiffli Abd Kadir; Hishamuddin Jamaluddin

Addresses: Department of Mechanical Engineering, National Defense University of Malaysia, Kuala Lumpur 50200, Malaysia ' Department of Mechanical Engineering, National Defense University of Malaysia, Kuala Lumpur 50200, Malaysia ' Department of Applied Mechanics, Technology University of Malaysia, Johor 81200, Malaysia

Abstract: This paper presents the derivation of a full vehicle model which consists of ride, handling and tyre subsystems to study vehicle dynamics behaviour in the lateral direction. The full vehicle model is then validated experimentally using an instrumented experimental vehicle based on steering wheel input from the driver. Three types of vehicle dynamics test were performed for model validation, namely step steer, slalom and double lane change tests. The validation results show that the behaviours of the model are similar to the real vehicle with acceptable error. An Active Roll Control (ARC) suspension system was developed using the validated full vehicle model to reduce unwanted vehicle motions during steering input manoeuvres such as body roll angle, body roll rate, vertical acceleration of the body and body heave. The proposed controller for the ARC system is a combination of Proportional-Integral-Derivative (PID) control with roll moment rejection loop. The results of the study show that the proposed control structure significantly improves the dynamics performance of the vehicle during step steer, slalom and double lane change manoeuvres compared with a passive vehicle system. The additional roll moment rejection loop is found to be able to further improve the performance of the PID ARC system. The effectiveness of the ARC system with the proposed control was also proven experimentally using the instrumented experimental vehicle.

Keywords: vehicle ride modelling; vehicle handling modelling; tyre modelling; vehicle dynamics; step steer test; slalom test; double lane change test; ARC suspension; active roll control; roll moment rejection control; simulation; pneumatic actuators; active suspension systems; vehicle lateral dynamics; vehicle performance; full vehicle models; vehicle design.

DOI: 10.1504/IJVD.2014.057771

International Journal of Vehicle Design, 2014 Vol.64 No.1, pp.72 - 100

Received: 19 Feb 2010
Accepted: 30 Oct 2010
Published online: 30 Oct 2014 *

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Title: Simulation and experimental evaluations on the performance of pneumatically actuated active roll control suspension system for improving vehicle lateral dynamics performance

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