The aim of this paper is to investigate the effect of vehicle dynamics control systems (VDCS) on both the collision of the vehicle body and the kinematic behaviour of the vehicle's occupant in case of offset frontal vehicle-to-vehicle collision. A unique 6-degree-of-freedom (6-DOF) vehicle dynamics/crash mathematical model and a simplified lumped mass occupant model are developed. The first model is used to define the vehicle body crash parameters and it integrates a vehicle dynamics model with a vehicle front-end structure model. The second model aims to predict the effect of VDCS on the kinematics of the occupant. It is shown from the numerical simulations that the vehicle dynamics/crash response and occupant behaviour can be captured and...
This paper aims to improve vehicle crashworthiness using vehicle dynamics control systems (VDCS) int...
In this paper, a novel 3-D dynamic/crash mathematical model is developed and solved numerically to i...
The aim of this paper is to enhance crashworthiness in the case of vehicle-to-barrier full frontal c...
The aim of this paper is to investigate the effect of vehicle dynamics control systems (VDCS) on bot...
The aim of this paper is to investigate the effect of vehicle dynamics control systems (VDCS) on bot...
The aim of this paper is to investigate the effect of vehicle dynamics control systems (VDCS) on bot...
The behaviour of a vehicle at high-speed crashes is enhanced by using active vehicle dynamics contro...
This paper focuses on the use of vehicle dynamics control systems (VDCS) to mitigate vehicle collisi...
Nowadays, occupant safety becomes one of the most important research area and the automotive indust...
The aim of this paper is to enhance crashworthiness in the case of vehicle-to-barrier full frontal c...
This paper focuses on the use of vehicle dynamics control systems (VDCS) to mitigate vehicle collisi...
This paper aims to apply a vehicle dynamics control system to mitigate a vehicle collision and to st...
A multi-body occupant mathematical model is developed to capture the occupant kinematics during fron...
The aim of this research is to apply vehicle dynamics control systems to mitigate the vehicle collis...
The aim of this paper is to enhance crashworthiness in the case of vehicle-to-barrier full frontal ...
This paper aims to improve vehicle crashworthiness using vehicle dynamics control systems (VDCS) int...
In this paper, a novel 3-D dynamic/crash mathematical model is developed and solved numerically to i...
The aim of this paper is to enhance crashworthiness in the case of vehicle-to-barrier full frontal c...
The aim of this paper is to investigate the effect of vehicle dynamics control systems (VDCS) on bot...
The aim of this paper is to investigate the effect of vehicle dynamics control systems (VDCS) on bot...
The aim of this paper is to investigate the effect of vehicle dynamics control systems (VDCS) on bot...
The behaviour of a vehicle at high-speed crashes is enhanced by using active vehicle dynamics contro...
This paper focuses on the use of vehicle dynamics control systems (VDCS) to mitigate vehicle collisi...
Nowadays, occupant safety becomes one of the most important research area and the automotive indust...
The aim of this paper is to enhance crashworthiness in the case of vehicle-to-barrier full frontal c...
This paper focuses on the use of vehicle dynamics control systems (VDCS) to mitigate vehicle collisi...
This paper aims to apply a vehicle dynamics control system to mitigate a vehicle collision and to st...
A multi-body occupant mathematical model is developed to capture the occupant kinematics during fron...
The aim of this research is to apply vehicle dynamics control systems to mitigate the vehicle collis...
The aim of this paper is to enhance crashworthiness in the case of vehicle-to-barrier full frontal ...
This paper aims to improve vehicle crashworthiness using vehicle dynamics control systems (VDCS) int...
In this paper, a novel 3-D dynamic/crash mathematical model is developed and solved numerically to i...
The aim of this paper is to enhance crashworthiness in the case of vehicle-to-barrier full frontal c...