This paper deals with time optimal path tracking along prescribed geometric paths for robotic systems, like computerized numerical control (CNC) machines. These machines are typically controlled by a low cost microcontroller computational unit (MCU). Such MCUs are commonly used in industrial applications but are limited in view of computational performance. In many cases, these robotic systems have not only a MCU on which e.g. a motion controller is implemented, but also an associated desktop computer that serves as input device and transmits raw data to the MCU. Therefore, the calculation of the timeoptimal path following can be divided into two steps, where the paths are in our case defined as BSplines. On the desktop computer, an approxi...
In this article the model predictive path following controller and the model predictive trajectory t...
Robotics has revolutionized several industries across the globe through technologies never seen befo...
In this paper, we focus on a combination of path following and trajectory tracking for a mobile robo...
This paper discusses path-following control for robotics, moving a manipulator along a path in Carte...
This paper presents results from time-optimal path tracking for industrial robots. More specifically...
The prototypical problem in control theory is the stabilization of a set point. When, instead of a s...
Many industrial applications require the output of a dynamic system to track a predetermined geometr...
In this paper, Modelica along with Optimica is used to formulate and solve a minimum time optimizati...
For robotic systems tracking a given geometric path, the paper addresses the problem of satisfying i...
© 2005-2012 IEEE. In pursuit of the time-optimal motion of an industrial robot along a desired path,...
In this paper, Modelica along with Optimica has been used to formulate and solve a minimum time opti...
The ever growing need to make industry more efficient and safe has introduced robots as potential re...
An algorithm for high-performance path tracking for robot manipulators in the presence of model unce...
This work focuses on control and trajectory optimization strategies for high speed contouring of mac...
This thesis presents practical methods for planning and control to improve the motion performance of...
In this article the model predictive path following controller and the model predictive trajectory t...
Robotics has revolutionized several industries across the globe through technologies never seen befo...
In this paper, we focus on a combination of path following and trajectory tracking for a mobile robo...
This paper discusses path-following control for robotics, moving a manipulator along a path in Carte...
This paper presents results from time-optimal path tracking for industrial robots. More specifically...
The prototypical problem in control theory is the stabilization of a set point. When, instead of a s...
Many industrial applications require the output of a dynamic system to track a predetermined geometr...
In this paper, Modelica along with Optimica is used to formulate and solve a minimum time optimizati...
For robotic systems tracking a given geometric path, the paper addresses the problem of satisfying i...
© 2005-2012 IEEE. In pursuit of the time-optimal motion of an industrial robot along a desired path,...
In this paper, Modelica along with Optimica has been used to formulate and solve a minimum time opti...
The ever growing need to make industry more efficient and safe has introduced robots as potential re...
An algorithm for high-performance path tracking for robot manipulators in the presence of model unce...
This work focuses on control and trajectory optimization strategies for high speed contouring of mac...
This thesis presents practical methods for planning and control to improve the motion performance of...
In this article the model predictive path following controller and the model predictive trajectory t...
Robotics has revolutionized several industries across the globe through technologies never seen befo...
In this paper, we focus on a combination of path following and trajectory tracking for a mobile robo...