The deformation of compliant parts during material handling is a critical issue that can significantly affect the productivity and the parts' dimensional quality. There are multiple relevant aspects to consider when designing end-effectors to handle compliant parts, e.g. motion planning, holding force, part deformations, collisions, etc. This paper focuses on multi-robot material handling systems where the end-effector designs influence the coordination of the robots to prevent that these collide in the shared workspace. A multi-disciplinary methodology for end-effector design optimisation and multi-robot motion planning for material handling of compliant parts is proposed. The novelty is the co-adaptive optimisation of the end-effectors' s...
Additive manufacturing (AM) is revolutionizing industry, allowing to prototype and fabricate custom-...
According to both industrial practice and literature, multi-robot cell design and robot motion plann...
Since the rise of additive manufacturing (AM), innovation has been at the forefront. Additive Manufa...
The deformation of compliant parts during material handling is a critical issue that can significant...
Motion planning for robot operations is concerned with path planning and trajectory generation. In m...
Integrating robotics into manufacturing tasks is now a decades-old practice with ongoing advances ma...
Material handling of compliant sheet metal parts is one of the most critical yet underresearched are...
This thesis focuses on the design of new versatile and compliant end-effectors for collaborative rob...
The use of carbon fiber reinforced plastics (CFRP) has been increasing much recently, in particular ...
Material handling of compliant sheet metal parts significantly impacts both part dimensional quality...
In recent years, the affordability of robots and the progress in collaborative robotics has been of ...
Purpose: The handling of material is a high resource consuming task in many different manufacturing ...
The paper describes a concept for securing the geometry in flexible production based on robot assist...
Industrial robots are available in a large variety of mechanical alternatives regarding size, motor ...
This work proposes the application of a recently developed locomotion system to material handling fo...
Additive manufacturing (AM) is revolutionizing industry, allowing to prototype and fabricate custom-...
According to both industrial practice and literature, multi-robot cell design and robot motion plann...
Since the rise of additive manufacturing (AM), innovation has been at the forefront. Additive Manufa...
The deformation of compliant parts during material handling is a critical issue that can significant...
Motion planning for robot operations is concerned with path planning and trajectory generation. In m...
Integrating robotics into manufacturing tasks is now a decades-old practice with ongoing advances ma...
Material handling of compliant sheet metal parts is one of the most critical yet underresearched are...
This thesis focuses on the design of new versatile and compliant end-effectors for collaborative rob...
The use of carbon fiber reinforced plastics (CFRP) has been increasing much recently, in particular ...
Material handling of compliant sheet metal parts significantly impacts both part dimensional quality...
In recent years, the affordability of robots and the progress in collaborative robotics has been of ...
Purpose: The handling of material is a high resource consuming task in many different manufacturing ...
The paper describes a concept for securing the geometry in flexible production based on robot assist...
Industrial robots are available in a large variety of mechanical alternatives regarding size, motor ...
This work proposes the application of a recently developed locomotion system to material handling fo...
Additive manufacturing (AM) is revolutionizing industry, allowing to prototype and fabricate custom-...
According to both industrial practice and literature, multi-robot cell design and robot motion plann...
Since the rise of additive manufacturing (AM), innovation has been at the forefront. Additive Manufa...