We consider the properties of stability and robustness of an optimal control synthesis obtained for the problem of route tracking by a kinematic vehicle moving forward only with a lower bounded turning radius. This model, sometimes referred to as “Dubins' vehicle”, is relevant to the kinematics of road vehicles as well as aircraft cruising at constant altitude, or sea vessels
This thesis studies the optimal control of vehicular systems, focusing on the solution of minimum-la...
International audienceAfter (Lizárraga, 2004) it is known that for nonholonomic systems it is imposs...
To support the design of trajectory tracking controllers, by way of linear tools, for vehicles chara...
The problem of driving a vehicle along a given path is considered. The vehicle is supposed to move f...
We consider the kinematic model of a vehicle moving forward with a lower bounded turning radius. Thi...
The paper considers an approach to the formation of control program trajectories of moving objects (...
A solution to the problem of autonomous navigation of a truck and trailer system is developed using ...
In this paper, we consider the problem of stabilizing the kinematic model of a car to a general path...
The autonomous vehicle is one of the greatest challenges in modern vehicle design. This paper propos...
This article deals with the issue of tracking a reference optimal trajectory for an autonomous nonli...
The environment around an autonomously navigated vehicle can have an unpredictablenumber of other ve...
International audienceIn this paper, we consider a (rough) kinematic model for a UAV flying at const...
The safety of driving two-wheel vehicles, such as motorcycles, can be significantly improved through...
International audienceThis paper mainly studies nonlinear feedback control applied to the nonlinear ...
In complement to robotic manipulators, autonomous vehicles form the second large class of robotic sy...
This thesis studies the optimal control of vehicular systems, focusing on the solution of minimum-la...
International audienceAfter (Lizárraga, 2004) it is known that for nonholonomic systems it is imposs...
To support the design of trajectory tracking controllers, by way of linear tools, for vehicles chara...
The problem of driving a vehicle along a given path is considered. The vehicle is supposed to move f...
We consider the kinematic model of a vehicle moving forward with a lower bounded turning radius. Thi...
The paper considers an approach to the formation of control program trajectories of moving objects (...
A solution to the problem of autonomous navigation of a truck and trailer system is developed using ...
In this paper, we consider the problem of stabilizing the kinematic model of a car to a general path...
The autonomous vehicle is one of the greatest challenges in modern vehicle design. This paper propos...
This article deals with the issue of tracking a reference optimal trajectory for an autonomous nonli...
The environment around an autonomously navigated vehicle can have an unpredictablenumber of other ve...
International audienceIn this paper, we consider a (rough) kinematic model for a UAV flying at const...
The safety of driving two-wheel vehicles, such as motorcycles, can be significantly improved through...
International audienceThis paper mainly studies nonlinear feedback control applied to the nonlinear ...
In complement to robotic manipulators, autonomous vehicles form the second large class of robotic sy...
This thesis studies the optimal control of vehicular systems, focusing on the solution of minimum-la...
International audienceAfter (Lizárraga, 2004) it is known that for nonholonomic systems it is imposs...
To support the design of trajectory tracking controllers, by way of linear tools, for vehicles chara...