Add to ORKGA fast convergent optimization algorithm is proposed in this paper to calculate sequential optimal trajectories for pursuing a moving target or under dynamically changing environments. The changing boundary conditions or perturbations in such problems require an efficient algorithm to update the optimal trajectories with appropriate time steps. Concepts of a uniform B-spline and differentially flat system are introduced to map the system equations to a lower dimensional space with least number of variables as necessary. The initial trajectory starts from quadratic uniform B-splines and then is refined by increasing the spline degree level to generate smooth trajectories with higher accuracy. Solution of all levels is transformed to a unit t...
The recently developed bio-inspired virtual motion camouflage (VMC) method can be used to rapidly so...
Trajectory planning in a given environment is a difficult task, notably if a real time solution is ...
When optimizing the performance of constrained robotic system, the motion trajectory plays a crucial...
This abstract presents a method for calculating a time- optimal motion trajectory in the presence of...
In this thesis we report on investigations into the numerical solution of deterministic, continuous-...
Nonlinear constrained optimal trajectory control is an important and fundamental area of research th...
Nonlinear constrained optimal trajectory control is an important and fundamental area of research th...
Digital Object Identifier: 10.1016/S0005-1098(01)00055-3In this paper, some of the relationships bet...
This abstract presents a method to calculate time-optimal motion trajectories for autonomous systems...
When optimizing the performance of constrained robotic system, the motion trajectory plays a crucial...
In this paper, some of the relationships between optimal control and trajectory planning are examine...
Abstract — This paper deals with the optimal control of continuous-time linear systems with state-sp...
This paper presents a motion planning approach that steers systems in an optimal way through an obst...
International audienceIn this paper, the motion planning problem is studied for nonlinear differenti...
The recently developed bio-inspired virtual motion camouflage (VMC) method can be used to rapidly so...
The recently developed bio-inspired virtual motion camouflage (VMC) method can be used to rapidly so...
Trajectory planning in a given environment is a difficult task, notably if a real time solution is ...
When optimizing the performance of constrained robotic system, the motion trajectory plays a crucial...
This abstract presents a method for calculating a time- optimal motion trajectory in the presence of...
In this thesis we report on investigations into the numerical solution of deterministic, continuous-...
Nonlinear constrained optimal trajectory control is an important and fundamental area of research th...
Nonlinear constrained optimal trajectory control is an important and fundamental area of research th...
Digital Object Identifier: 10.1016/S0005-1098(01)00055-3In this paper, some of the relationships bet...
This abstract presents a method to calculate time-optimal motion trajectories for autonomous systems...
When optimizing the performance of constrained robotic system, the motion trajectory plays a crucial...
In this paper, some of the relationships between optimal control and trajectory planning are examine...
Abstract — This paper deals with the optimal control of continuous-time linear systems with state-sp...
This paper presents a motion planning approach that steers systems in an optimal way through an obst...
International audienceIn this paper, the motion planning problem is studied for nonlinear differenti...
The recently developed bio-inspired virtual motion camouflage (VMC) method can be used to rapidly so...
The recently developed bio-inspired virtual motion camouflage (VMC) method can be used to rapidly so...
Trajectory planning in a given environment is a difficult task, notably if a real time solution is ...
When optimizing the performance of constrained robotic system, the motion trajectory plays a crucial...