The tire forces of vehicles will fall into the non-linear region under extreme handling conditions, which cause poor path tracking performance. In this paper, a model predictive controller based on a nonlinear tire model is designed. The tire forces are characterized with nonlinear composite functions of the magic formula instead of a simple linear relation model. Taylor expansion is used to linearize the controller, the first-order difference quotient method is used for discretization, and the partial derivative of the composite function is used for matrix transformation. Constant velocity and variable velocity conditions are selected to compare the designed controller with the conventional controller in Carsim/Simulink. The results show t...
This study discusses vehicle stability control based on explicit nonlinear model predictive control ...
We present a comparative study of model predictive control approaches of two-wheel steering, four-wh...
Four-wheel independently driven electric vehicles are prone to rollover when driving at high speeds ...
In this paper, we address the problem of trajectory tracking control of autonomous vehicles by consi...
This paper presents a linearization method for the vehicle and tire models under the model predictiv...
Recent research suggests the various applications of Model Predictive Control on vehicle systems. In...
In limit conditions, autonomous vehicles face the risk of lateral instability. The integrated contro...
This paper describes a comparative study of steering and yaw moment control manoeuvres in the model ...
Path tracking control is one of the most important functions for autonomous driving. In path trackin...
The field of autonomous driving vehicles is growing and expanding rapidly. However, the control syst...
This paper illustrates the development of a nonlinear constrained predictive path-tracking controlle...
For four-wheel independent drive intelligent vehicle, the longitudinal and lateral motion control of...
In this paper, an efficient model predictive control (MPC) of velocity tracking of automated vehicle...
Vehicle drifting control has attracted wide attention, and the study methods are divided into expert...
This paper studies the motion control problem of an autonomous vehicle. The problem of the motion co...
This study discusses vehicle stability control based on explicit nonlinear model predictive control ...
We present a comparative study of model predictive control approaches of two-wheel steering, four-wh...
Four-wheel independently driven electric vehicles are prone to rollover when driving at high speeds ...
In this paper, we address the problem of trajectory tracking control of autonomous vehicles by consi...
This paper presents a linearization method for the vehicle and tire models under the model predictiv...
Recent research suggests the various applications of Model Predictive Control on vehicle systems. In...
In limit conditions, autonomous vehicles face the risk of lateral instability. The integrated contro...
This paper describes a comparative study of steering and yaw moment control manoeuvres in the model ...
Path tracking control is one of the most important functions for autonomous driving. In path trackin...
The field of autonomous driving vehicles is growing and expanding rapidly. However, the control syst...
This paper illustrates the development of a nonlinear constrained predictive path-tracking controlle...
For four-wheel independent drive intelligent vehicle, the longitudinal and lateral motion control of...
In this paper, an efficient model predictive control (MPC) of velocity tracking of automated vehicle...
Vehicle drifting control has attracted wide attention, and the study methods are divided into expert...
This paper studies the motion control problem of an autonomous vehicle. The problem of the motion co...
This study discusses vehicle stability control based on explicit nonlinear model predictive control ...
We present a comparative study of model predictive control approaches of two-wheel steering, four-wh...
Four-wheel independently driven electric vehicles are prone to rollover when driving at high speeds ...