A near-optimal solution to the path-unconstrained time-optimal trajectory planning problem is described in this paper. While traditional trajectory planning strategies are entirely based on kinematic considerations, manipulator dynamics are usually neglected altogether. The strategy presented in this work has two distinguishing features. Firstly, the trajectory planning problem is reformulated as an optimal control problem, which is in turn solved using Pontryagin's maximum/minimum principle. This approach merges the traditional division of trajectory planning followed by trajectory tracking into one process. Secondly, the feedback form compensates for the dynamic approximation errors derived from linearization and the fundamental parameter...
The recent years have seen rapid growth in the adoption of robotics technologies. This welcoming de...
This paper addresses time-optimal path-constrained trajectory planning. Given a geometric path for a...
Common robotic tracking tasks consist of motions along predefined paths. The design of time-optimal ...
A near-optimal solution to the path-unconstrained time-optimal trajectory planning problem is descri...
In the paper we present a solution to the optimal trajectory planning problem subject to constraints...
The ever growing need to make industry more efficient and safe has introduced robots as potential re...
The purpose of this thesis is to present a comprehensive and practical approach for the time-optimal...
This work proposes and demonstrates a strategy for planning smooth path-constrained time-optimal tr...
The problem of optimal control of robotic manipulators is dealt with in two stages: (1) optimal traj...
Industrial robots are widely used in a variety of applications in manufacturing. Today, most industr...
In this dissertation, we study two important subjects in robotics: (i) time-optimal trajectory plann...
The paper presents a practical solution of the optimal trajectory planning task for robot motions. T...
In this paper, study results of the trajectory planning algorithms of industrial robot manipulators ...
This dissertation presents algorithms for the solution of the robot trajectory planning problem. The...
This thesis presents practical methods for planning and control to improve the motion performance of...
The recent years have seen rapid growth in the adoption of robotics technologies. This welcoming de...
This paper addresses time-optimal path-constrained trajectory planning. Given a geometric path for a...
Common robotic tracking tasks consist of motions along predefined paths. The design of time-optimal ...
A near-optimal solution to the path-unconstrained time-optimal trajectory planning problem is descri...
In the paper we present a solution to the optimal trajectory planning problem subject to constraints...
The ever growing need to make industry more efficient and safe has introduced robots as potential re...
The purpose of this thesis is to present a comprehensive and practical approach for the time-optimal...
This work proposes and demonstrates a strategy for planning smooth path-constrained time-optimal tr...
The problem of optimal control of robotic manipulators is dealt with in two stages: (1) optimal traj...
Industrial robots are widely used in a variety of applications in manufacturing. Today, most industr...
In this dissertation, we study two important subjects in robotics: (i) time-optimal trajectory plann...
The paper presents a practical solution of the optimal trajectory planning task for robot motions. T...
In this paper, study results of the trajectory planning algorithms of industrial robot manipulators ...
This dissertation presents algorithms for the solution of the robot trajectory planning problem. The...
This thesis presents practical methods for planning and control to improve the motion performance of...
The recent years have seen rapid growth in the adoption of robotics technologies. This welcoming de...
This paper addresses time-optimal path-constrained trajectory planning. Given a geometric path for a...
Common robotic tracking tasks consist of motions along predefined paths. The design of time-optimal ...