The paper deals with the generation of optimal trajectories for industrial robots in machining and additive manufacturing applications. The proposed method uses an Ant Colony algorithm to solve a kinodynamic motion planning problem. It exploits the kinematic redundancy that is often present in these applications to optimize the execution of trajectory. At the same time, the robot kinematics and dynamics constraints are respected and robot collisions are avoided. To reduce the computational burden, the task workspace is discretized enabling the use of efficient network solver based on Ant Colony theory. The proposed method is validated in robotic milling and additive manufacturing real-world scenarios
The paper presents a practical solution of the optimal trajectory planning task for robot motions. T...
Motion planning for robot operations is concerned with path planning and trajectory generation. In m...
This paper deals with the multi-degree cyclic robotic flow shop cell scheduling problem with multipl...
The paper deals with the generation of optimal trajectories for industrial robots in machining and a...
Motion planning in robotics is a process to compute a collision free path between the initial and fi...
Advanced manufacturing that is adaptable to constantly changing product designs often requires dynam...
We present a method for effectively planning the motion trajectory of robots in manufacturing tasks,...
Aerospace production volumes have increased over time and robotic solutions have been progressively ...
In a production plant for complex assembled products there could be up to several hundred of robots ...
The thesis deals with the optimal motion planning in redundant robotic systems for automation of the...
We have designed a path planner for an additive manufacturing (AM) prototype that consists of two ro...
Repetitive Motion Planning and Control of Redundant Robot Manipulators presents four typical motion ...
The paper presents a model and solution method for optimized robot joint motion planning of redundan...
Within the last decades, autonomous multirobot systems have been received an increasing interest due...
The paper presents a practical solution of the optimal trajectory planning task for robot motions. T...
Motion planning for robot operations is concerned with path planning and trajectory generation. In m...
This paper deals with the multi-degree cyclic robotic flow shop cell scheduling problem with multipl...
The paper deals with the generation of optimal trajectories for industrial robots in machining and a...
Motion planning in robotics is a process to compute a collision free path between the initial and fi...
Advanced manufacturing that is adaptable to constantly changing product designs often requires dynam...
We present a method for effectively planning the motion trajectory of robots in manufacturing tasks,...
Aerospace production volumes have increased over time and robotic solutions have been progressively ...
In a production plant for complex assembled products there could be up to several hundred of robots ...
The thesis deals with the optimal motion planning in redundant robotic systems for automation of the...
We have designed a path planner for an additive manufacturing (AM) prototype that consists of two ro...
Repetitive Motion Planning and Control of Redundant Robot Manipulators presents four typical motion ...
The paper presents a model and solution method for optimized robot joint motion planning of redundan...
Within the last decades, autonomous multirobot systems have been received an increasing interest due...
The paper presents a practical solution of the optimal trajectory planning task for robot motions. T...
Motion planning for robot operations is concerned with path planning and trajectory generation. In m...
This paper deals with the multi-degree cyclic robotic flow shop cell scheduling problem with multipl...