Semi-active suspension systems are becoming increasingly common in the automotive industry due to their low energy consumption and cost advantages. A significant milestone in semi-active suspension control is the emergence of the skyhook control method. Then, the active driven damper method was introduced to bring the semi-active control closer to the optimum limit of the system. Later, power driven damper was introduced to reduce the jerk of the active driven damper and skyhook. The active and power-driven damper are mixed with skyhook control to be optimal throughout the entire frequency range. However, the methods mentioned above have been developed using the quarter car model, and no comparative studies have been found on the full car model effectiveness and the application of the methods, realistically. In this study, the above methods, which have been used in the literature, frequently, were compared first, on the quarter car model to reveal the system response characteristics. Then, a curved regular grid road profile and a high-fidelity full car model were used to compare the centralised skyhook continuous and four quarter car approaches.
Implementation of semi-active suspension control methods in a full car model and a comparative study in terms of ride comfort and road holding
2023-07-01
14 pages
Article (Journal)
Electronic Resource
English
Springer Verlag | 2022
|Springer Verlag | 2018
|Ride Comfort, Road Holding, and Energy Harvesting of a Hydraulic Regenerative Vehicle Suspension
SAE Technical Papers | 2020
|Effect of Road Roughness on the Vehicle Ride Comfort using Semi-Active Suspension System
SAE Technical Papers | 2010
|