Add to ORKGThe autonomous vehicle is one of the greatest challenges in modern vehicle design. This paper proposes a new method of control named FLOP, Feedback Local Optimality Principle, recently proposed by the authors. The method, starting from the Pontryagin's theory, introduces a new optimality principle that minimizes a sequence of individual functionals with the chance of a direct feedback control. The theory is applied to the steering and traction control of a two-wheeled vehicle, showing the ability of tracking a given trajectory and obstacles avoidance in a rather complex environment
In complement to robotic manipulators, autonomous vehicles form the second large class of robotic sy...
This paper considers the problem of collision avoidance for road vehicles, operating at the limits o...
Autonomous vehicle guidance and trajectory planning is one of the key technologies in the autonomous...
The autonomous vehicle is one of the greatest challenges in modern vehicle design. This paper propos...
The autonomous vehicle is one of the greatest challenges in modern vehicle design. This paper propos...
This paper is addressed to the analysis of an autonomous vehicle as a first step of an on-going proj...
This work originates from the desire to produce innovative control for engineering applications in t...
This paper studies the motion control problem of an autonomous vehicle. The problem of the motion co...
To allow future autonomous passenger vehicles to be used in the same driving situations and conditio...
Stability control of a vehicle in autonomous safety-critical at-the-limit manoeuvres is analysed fro...
Active degrees of freedom provide a robotic vehicle the ability to enhance its performance in all te...
The trend of more advanced driver-assistance features and the development toward autonomous vehicles...
From the basis of optimal control, a closed-loop controller for autonomous vehicle maneuvers at-the-...
The safety of driving two-wheel vehicles, such as motorcycles, can be significantly improved through...
This report investigates how Optimal Control and above all, the Pontryagin Maximum Principle (PMP),...
In complement to robotic manipulators, autonomous vehicles form the second large class of robotic sy...
This paper considers the problem of collision avoidance for road vehicles, operating at the limits o...
Autonomous vehicle guidance and trajectory planning is one of the key technologies in the autonomous...
The autonomous vehicle is one of the greatest challenges in modern vehicle design. This paper propos...
The autonomous vehicle is one of the greatest challenges in modern vehicle design. This paper propos...
This paper is addressed to the analysis of an autonomous vehicle as a first step of an on-going proj...
This work originates from the desire to produce innovative control for engineering applications in t...
This paper studies the motion control problem of an autonomous vehicle. The problem of the motion co...
To allow future autonomous passenger vehicles to be used in the same driving situations and conditio...
Stability control of a vehicle in autonomous safety-critical at-the-limit manoeuvres is analysed fro...
Active degrees of freedom provide a robotic vehicle the ability to enhance its performance in all te...
The trend of more advanced driver-assistance features and the development toward autonomous vehicles...
From the basis of optimal control, a closed-loop controller for autonomous vehicle maneuvers at-the-...
The safety of driving two-wheel vehicles, such as motorcycles, can be significantly improved through...
This report investigates how Optimal Control and above all, the Pontryagin Maximum Principle (PMP),...
In complement to robotic manipulators, autonomous vehicles form the second large class of robotic sy...
This paper considers the problem of collision avoidance for road vehicles, operating at the limits o...
Autonomous vehicle guidance and trajectory planning is one of the key technologies in the autonomous...