Suspension-type small rail personal rapid transit systems are widely concerned due to their high efficiency and reliability. The increasing demands for ride comfort have put forward higher requirements for vehicle stationarity. In the study, with a single-bogie vehicle as the research object, a dynamic equation and a simulation model are firstly established to calculate the attitude angle and lateral velocity of the vehicle. Then, with the small amplitude and fast attenuation of the attitude angle and lateral velocity in a straight line and a bend as optimization objectives, the simulation model is optimized in terms of a series of variables, including the bogie with or without the supporting wheel, the supporting wheel tread, the driving w...
An optimization problem is formulated to attain the vector of optimized primary suspension passive d...
Instead of good effects on the ride comfort, the active suspension may have unfavorable effects on t...
Ride comfort, safety, wear and vehicle speed are the most important factors in evaluating the effici...
This study presents an optimization method to design the suspension properties associated with low-d...
Dynamical analysis plays a key role in development and optimalization of rail vehicles. The article ...
Primary suspension components of high speed train bogies can affect the vehicle\u27s performance fro...
Low-frequency carbody swaying on China’s high-speed trains is not only an impediment to ride comfort...
When designing and optimizing a rail vehicle there is a contradiction between, on the one hand, stab...
This paper presents the optimization of suspension characteristics under the condition of curved tra...
This paper presents optimization of damping characteristics in the bogie suspension using a multi-ob...
This project presents the dynamic modelling and control of railway vehicle active suspension system...
Improving the track friendliness of a railway vehicle can benefit the railway industry significantly...
For the worn state of the wheel, metro vehicles often suffer a serious carbody swaying issue, which ...
Suspension system is a mechanism which isolates the vehicle body from road shocks and unwanted vibr...
Suspension components play a crucial role in bogie dynamics behavior. In this regard, passive and ac...
An optimization problem is formulated to attain the vector of optimized primary suspension passive d...
Instead of good effects on the ride comfort, the active suspension may have unfavorable effects on t...
Ride comfort, safety, wear and vehicle speed are the most important factors in evaluating the effici...
This study presents an optimization method to design the suspension properties associated with low-d...
Dynamical analysis plays a key role in development and optimalization of rail vehicles. The article ...
Primary suspension components of high speed train bogies can affect the vehicle\u27s performance fro...
Low-frequency carbody swaying on China’s high-speed trains is not only an impediment to ride comfort...
When designing and optimizing a rail vehicle there is a contradiction between, on the one hand, stab...
This paper presents the optimization of suspension characteristics under the condition of curved tra...
This paper presents optimization of damping characteristics in the bogie suspension using a multi-ob...
This project presents the dynamic modelling and control of railway vehicle active suspension system...
Improving the track friendliness of a railway vehicle can benefit the railway industry significantly...
For the worn state of the wheel, metro vehicles often suffer a serious carbody swaying issue, which ...
Suspension system is a mechanism which isolates the vehicle body from road shocks and unwanted vibr...
Suspension components play a crucial role in bogie dynamics behavior. In this regard, passive and ac...
An optimization problem is formulated to attain the vector of optimized primary suspension passive d...
Instead of good effects on the ride comfort, the active suspension may have unfavorable effects on t...
Ride comfort, safety, wear and vehicle speed are the most important factors in evaluating the effici...