We have designed a path planner for an additive manufacturing (AM) prototype that consists of two robotic arms which collaborate on a single part. Theoretically, with two nozzle equipped arms, a part can be 3D printed twice as fast. Moreover, equipping the second robot with a machining tool enables the completion of secondary operations like hole reaming or surface milling before the printing is finished. With two arms in the part space care must be taken to ensure that the arms collaborate intelligently; in particular, tasks must be planned so that the robots do not collide. This paper discusses the development of a robot path planner to efficiently print segments with two arms, while maintaining a safe distance between them. A solution to...
In recent years, Additive Manufacturing (AM) has advanced from its ubiquitous function of design val...
Since the rise of additive manufacturing (AM), innovation has been at the forefront. Additive Manufa...
With the increasing demand for high productivity and low cost, the advanced manufacturing system has...
We have designed a path planner for an additive manufacturing (AM) prototype that consists of two ro...
Previous algorithms for slicing, path planning or trajectory planning of additive manufacturing cann...
Integrating robotics into manufacturing tasks is now a decades-old practice with ongoing advances ma...
Traditional extrusion based Additive Manufacturing (AM) is realized using a 3 Degrees of Freedom (DO...
2016 2nd International Conference on Control, Automation and Robotics (ICCAR), 28-30 April 20162015-...
In the operation of a broad range of industrial processes, the uses of robots whose trajectories are...
Additive manufacturing (AM) is popularly known as 3D printing. It is a technology that produces a ph...
In the last decades, the field of Additive Manufacturing (AM) has seen an increase of industrial rob...
We present a method for effectively planning the motion trajectory of robots in manufacturing tasks,...
The paper deals with the generation of optimal trajectories for industrial robots in machining and a...
Mobile 3D Printing (M3DP), using printing-in-motion, is a powerful paradigm for automated constructi...
grantor: University of TorontoThe classical Travelling Salesperson Problem (TSP) models th...
In recent years, Additive Manufacturing (AM) has advanced from its ubiquitous function of design val...
Since the rise of additive manufacturing (AM), innovation has been at the forefront. Additive Manufa...
With the increasing demand for high productivity and low cost, the advanced manufacturing system has...
We have designed a path planner for an additive manufacturing (AM) prototype that consists of two ro...
Previous algorithms for slicing, path planning or trajectory planning of additive manufacturing cann...
Integrating robotics into manufacturing tasks is now a decades-old practice with ongoing advances ma...
Traditional extrusion based Additive Manufacturing (AM) is realized using a 3 Degrees of Freedom (DO...
2016 2nd International Conference on Control, Automation and Robotics (ICCAR), 28-30 April 20162015-...
In the operation of a broad range of industrial processes, the uses of robots whose trajectories are...
Additive manufacturing (AM) is popularly known as 3D printing. It is a technology that produces a ph...
In the last decades, the field of Additive Manufacturing (AM) has seen an increase of industrial rob...
We present a method for effectively planning the motion trajectory of robots in manufacturing tasks,...
The paper deals with the generation of optimal trajectories for industrial robots in machining and a...
Mobile 3D Printing (M3DP), using printing-in-motion, is a powerful paradigm for automated constructi...
grantor: University of TorontoThe classical Travelling Salesperson Problem (TSP) models th...
In recent years, Additive Manufacturing (AM) has advanced from its ubiquitous function of design val...
Since the rise of additive manufacturing (AM), innovation has been at the forefront. Additive Manufa...
With the increasing demand for high productivity and low cost, the advanced manufacturing system has...