In limit conditions, autonomous vehicles face the risk of lateral instability. The integrated control of steering and braking, an important measure for improving the stability of autonomous vehicles, has been extensively studied. A novel steering and braking integrated model predictive path tracking control (PTC) based on a dimension reduction model is proposed in this study. This method aims at the dilemma of the real-time limitation of the current integrated model predictive PTC based on nonlinear vehicle dynamics in practical applications and the unsatisfactory control effect of the integrated model predictive PTC based on the linearised vehicle dynamics in limit conditions. The core concept of this study is to reduce the input dimension...
The field of autonomous driving vehicles is growing and expanding rapidly. However, the control syst...
The problem of controlling the front steering to stabilize a vehicle along a desired path is tackled...
In this paper we present and discuss an in-vehicle experimental validation of an integrated steering...
This paper presents a linearization method for the vehicle and tire models under the model predictiv...
The tire forces of vehicles will fall into the non-linear region under extreme handling conditions, ...
Path tracking control is one of the most important functions for autonomous driving. In path trackin...
This paper presents an MPC-based integrated control algorithm for an autonomous vehicle equipped wit...
This paper describes a comparative study of steering and yaw moment control manoeuvres in the model ...
In this paper, we address the problem of trajectory tracking control of autonomous vehicles by consi...
In this paper we present a Model Predictive Control (MPC) approach for combined braking and steering...
A Model Predictive Control (MPC) approach for controlling active front steering, active braking and ...
This work presents a Nonlinear Model Predictive Control (NMPC) scheme to perform evasive maneuvers a...
This paper presents a lateral dynamic model based on control algorithm for the path tracking of auto...
A new hierarchical model predictive controller for autonomous vehicle steering control is presented....
This paper illustrates the development of a nonlinear constrained predictive path-tracking controlle...
The field of autonomous driving vehicles is growing and expanding rapidly. However, the control syst...
The problem of controlling the front steering to stabilize a vehicle along a desired path is tackled...
In this paper we present and discuss an in-vehicle experimental validation of an integrated steering...
This paper presents a linearization method for the vehicle and tire models under the model predictiv...
The tire forces of vehicles will fall into the non-linear region under extreme handling conditions, ...
Path tracking control is one of the most important functions for autonomous driving. In path trackin...
This paper presents an MPC-based integrated control algorithm for an autonomous vehicle equipped wit...
This paper describes a comparative study of steering and yaw moment control manoeuvres in the model ...
In this paper, we address the problem of trajectory tracking control of autonomous vehicles by consi...
In this paper we present a Model Predictive Control (MPC) approach for combined braking and steering...
A Model Predictive Control (MPC) approach for controlling active front steering, active braking and ...
This work presents a Nonlinear Model Predictive Control (NMPC) scheme to perform evasive maneuvers a...
This paper presents a lateral dynamic model based on control algorithm for the path tracking of auto...
A new hierarchical model predictive controller for autonomous vehicle steering control is presented....
This paper illustrates the development of a nonlinear constrained predictive path-tracking controlle...
The field of autonomous driving vehicles is growing and expanding rapidly. However, the control syst...
The problem of controlling the front steering to stabilize a vehicle along a desired path is tackled...
In this paper we present and discuss an in-vehicle experimental validation of an integrated steering...