The paper describes trajectory generation and tracking control algorithms, respectively based on nonlinear filtering and dynamic feedback linearization, for mobile robots. A main feature of proposed algorithms is that they are suitable for the implementation on embedded systems with limited computational resources. The trajectory generator is based on nonlinear filters and logic-based management of reference inputs and dynamic constraints, allowing online smoothing of straight-line reference paths. Sparse via-points along a path can be assigned by a global planner based on obstacle avoidance algorithms and can be changed at any time during motion. Moreover, the trajectory generated by the nonlinear filter can be fed into a control loop base...
This paper presents an approach to collision-free, long-range trajectory generation for a mobile rob...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
The paper describes trajectory generation and tracking control algorithms, respectively based on non...
The paper describes trajectory generation and tracking control algorithms, respectively based on non...
The paper presents a nonlinear filtering technique that can be adopted to generate smooth trajectori...
The paper presents a nonlinear filtering technique that can be adopted to generate smooth trajectori...
The paper presents a nonlinear filtering technique that can be adopted to generate smooth trajectori...
The paper presents a trajectory generator for point-to-point movements in the field of motion contro...
Mixed-integer linear programming (MILP) for trajectory generation of mobile robot suffers from nonli...
Mixed-integer linear programming (MILP) for trajectory generation of mobile robot suffers from nonli...
The paper presents a trajectory generator for point-to-point movements in the field of motion contro...
The paper presents a trajectory generator for point-to-point movements in the field of motion contro...
In this paper we propose a linear time-invariant (LTI) state feedback operator for nonholonomic mobi...
By directly dealing with nonlinear model of the robot this paper presents dynamic inversion as a met...
This paper presents an approach to collision-free, long-range trajectory generation for a mobile rob...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
The paper describes trajectory generation and tracking control algorithms, respectively based on non...
The paper describes trajectory generation and tracking control algorithms, respectively based on non...
The paper presents a nonlinear filtering technique that can be adopted to generate smooth trajectori...
The paper presents a nonlinear filtering technique that can be adopted to generate smooth trajectori...
The paper presents a nonlinear filtering technique that can be adopted to generate smooth trajectori...
The paper presents a trajectory generator for point-to-point movements in the field of motion contro...
Mixed-integer linear programming (MILP) for trajectory generation of mobile robot suffers from nonli...
Mixed-integer linear programming (MILP) for trajectory generation of mobile robot suffers from nonli...
The paper presents a trajectory generator for point-to-point movements in the field of motion contro...
The paper presents a trajectory generator for point-to-point movements in the field of motion contro...
In this paper we propose a linear time-invariant (LTI) state feedback operator for nonholonomic mobi...
By directly dealing with nonlinear model of the robot this paper presents dynamic inversion as a met...
This paper presents an approach to collision-free, long-range trajectory generation for a mobile rob...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...
International audienceThis paper presents a novel bilateral shared framework for online trajectory g...