This paper covers the extension and control of dynamic trajectories for cable-driven parallel robots and measurement of their accuracy. At first theoretical background is given and the mathematical constructs to ensure that all cables are under tension for a suspended 3-cable cable-driven parallel robot. Then an insight into user friendly control method is given in which several different types of trajectories, straight line, elliptical and more complex 3-D trajectories are realized. The use case of a novel robotic rollercoaster is further analyzed to identify necessary technological developments. One important factor that needs to be reviewed is the aspect of ensuring safety
Cable Suspended Parallel Robots (CSPR) are a type of cable driven parallel manipulators (CDPR) that ...
International audienceAn alternative approach to standard computed torque with feedback linearizatio...
In this thesis, a relatively new class of robots which use cables instead of rigid links is investig...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
Extensively studied since the early nineties, cable-driven robots have attracted the growing interes...
This paper describes the implementation of extended pulley kinematics for parallel cable robots. An ...
We consider dynamic motions of a spatial robot suspended by six cables, arranged so as to form three...
partially_open3siA preliminary and partial version of this paper was presented at the Third Internat...
This thesis concerns the study of the modeling and control of cable-driven robots. A Cable-Driven Ro...
Cable robots (also called \u201ccable direct driven robots\u201d or \u201ccable driven parallel robo...
This paper proposes a novel control scheme for precise path tracking control in cable driven paralle...
This paper proposes the preliminary results on a novel control architecture based on model predictiv...
In the last decade, cable-suspended parallel robots have attracted significant interest due to their...
Cable-driven parallel robots offer several benefits in terms of workspace size and design cost with ...
Abstract Parallel cable robots are a special class of parallel robots which are formed by replacing...
Cable Suspended Parallel Robots (CSPR) are a type of cable driven parallel manipulators (CDPR) that ...
International audienceAn alternative approach to standard computed torque with feedback linearizatio...
In this thesis, a relatively new class of robots which use cables instead of rigid links is investig...
Cable-robots are relatively simple robotic manipulators formed by attaching multiple cables to an en...
Extensively studied since the early nineties, cable-driven robots have attracted the growing interes...
This paper describes the implementation of extended pulley kinematics for parallel cable robots. An ...
We consider dynamic motions of a spatial robot suspended by six cables, arranged so as to form three...
partially_open3siA preliminary and partial version of this paper was presented at the Third Internat...
This thesis concerns the study of the modeling and control of cable-driven robots. A Cable-Driven Ro...
Cable robots (also called \u201ccable direct driven robots\u201d or \u201ccable driven parallel robo...
This paper proposes a novel control scheme for precise path tracking control in cable driven paralle...
This paper proposes the preliminary results on a novel control architecture based on model predictiv...
In the last decade, cable-suspended parallel robots have attracted significant interest due to their...
Cable-driven parallel robots offer several benefits in terms of workspace size and design cost with ...
Abstract Parallel cable robots are a special class of parallel robots which are formed by replacing...
Cable Suspended Parallel Robots (CSPR) are a type of cable driven parallel manipulators (CDPR) that ...
International audienceAn alternative approach to standard computed torque with feedback linearizatio...
In this thesis, a relatively new class of robots which use cables instead of rigid links is investig...