Litcius/Paper detail

Frequency-Based Modeling of a Vehicle Fitted With Roll-Plane Hydraulically Interconnected Suspension for Ride Comfort and Experimental Validation

Ming Wang, Bangji Zhang, Yuanchang Chen, Nong Zhang, Jie Zhang

2020IEEE Access33 citationsDOIOpen Access PDF

Abstract

A frequency-based modeling approach has been developed for the vehicle fitted with Hydraulically Interconnected Suspension (HIS) system. This frequency-based model has fewer degrees of freedom (DOF) than the reference time-based model. Several physical parameters of HIS system are selected to analytically investigate their effects on several indicators of vehicle roll, pitch and bounce modes, such as roll and pitch angular acceleration, vertical acceleration, and tire ground force. The HIS system parameters are also coordinately tuned and optimized to meet the ride comfort requirement. The full vehicle drop test is conducted for the experimental validation. The analytical results of the proposed model have a good agreement with the measurements.

Topics & Concepts

AccelerationSuspension (topology)Automotive engineeringVehicle dynamicsAngular accelerationComputer scienceAccelerometerSimulationControl theory (sociology)EngineeringPhysicsHomotopyControl (management)Classical mechanicsPure mathematicsArtificial intelligenceMathematicsOperating systemVehicle Dynamics and Control SystemsVibration Control and Rheological FluidsMechanical Engineering and Vibrations Research
Frequency-Based Modeling of a Vehicle Fitted With Roll-Plane Hydraulically Interconnected Suspension for Ride Comfort and Experimental Validation | Litcius