Add to ORKGSafe operation of autonomous systems demands a collision-free motion trajectory at every time instant. This paper presents a method to calculate time-optimal motion trajectories for autonomous systems moving through an environment with both stationary and moving obstacles. To transform this motion planning problem into a small dimensional optimization problem, suitable for real-time optimization, the approach (i) uses a spline parameterization of the motion trajectory; and (ii) exploits spline properties to reduce the number of constraints. Solving this optimization problem with a receding horizon allows dealing with modeling errors and variations in the environment. In addition to extensive numerical simulations, the method is experimental...
This dissertation focuses on the problem of motion planning for autonomous agents that are required ...
International audienceIn various circumstances, planning at trajectory level is very useful to gener...
Abstract — This paper presents a new on-line planner for dynamic environments that is based on the c...
This abstract presents a method to calculate time-optimal motion trajectories for autonomous systems...
This abstract presents a method to calculate time-optimal motion trajectories for autonomous systems...
This abstract presents a method for calculating a time- optimal motion trajectory in the presence of...
© 1993-2012 IEEE. Autonomous vehicles require a collision-free motion trajectory at every time insta...
This abstract presents a method for calculating a time- optimal motion trajectory in the presence of...
© 2018 IEEE. Nowadays, the potential of autonomous vehicles for order picking and material transport...
In modern industry there is an ever lasting quest to obtain a higher productivity at lower costs. In...
In this thesis we develop a general algorithm for optimizing robot motion in the presence of obstacl...
This paper presents a method for motion planning in dynamic environments, subject to robot dynamics ...
Abstract—This paper presents a novel motion planning ap-proach inspired by the Dynamic Programming (...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
In this paper, an efficient real-time autonomous driving motion planner with trajectory optimization...
This dissertation focuses on the problem of motion planning for autonomous agents that are required ...
International audienceIn various circumstances, planning at trajectory level is very useful to gener...
Abstract — This paper presents a new on-line planner for dynamic environments that is based on the c...
This abstract presents a method to calculate time-optimal motion trajectories for autonomous systems...
This abstract presents a method to calculate time-optimal motion trajectories for autonomous systems...
This abstract presents a method for calculating a time- optimal motion trajectory in the presence of...
© 1993-2012 IEEE. Autonomous vehicles require a collision-free motion trajectory at every time insta...
This abstract presents a method for calculating a time- optimal motion trajectory in the presence of...
© 2018 IEEE. Nowadays, the potential of autonomous vehicles for order picking and material transport...
In modern industry there is an ever lasting quest to obtain a higher productivity at lower costs. In...
In this thesis we develop a general algorithm for optimizing robot motion in the presence of obstacl...
This paper presents a method for motion planning in dynamic environments, subject to robot dynamics ...
Abstract—This paper presents a novel motion planning ap-proach inspired by the Dynamic Programming (...
In this paper, the problem of determining an optimal collision-free path is studied for a mobile rob...
In this paper, an efficient real-time autonomous driving motion planner with trajectory optimization...
This dissertation focuses on the problem of motion planning for autonomous agents that are required ...
International audienceIn various circumstances, planning at trajectory level is very useful to gener...
Abstract — This paper presents a new on-line planner for dynamic environments that is based on the c...