This paper shows that a hierarchical architecture, distributing several control actions in growing levels of complexity and using resources of reconfigurable computing, enables one to take into account the ease of future modifications, updates and improvements in robotic applications. An experimental example of a Stewart—Gough platform control (a platform applied as the solution to countless practical problems) is presented using reconfigurable computing. The software and hardware developed are structured in independent blocks. This open architecture implementation allows easy expansion of the system and better adaptation of the platform to its related tasks
This thesis explores the fundamentals of a new class of parallel mechanisms called parallel mechanis...
This paper introduces a six-legged autonomous robot managed by a single controller and a software co...
Robotic manipulators pose a challenging problem to control system theory. Classical controllers, suc...
This paper presents a practical implementation, using reconfigurable computing applied to robotic pr...
This paper shows that a hierarchical architecture, distributing the several control actions in growi...
The goal of this project is to develop a system able to control the movement of a parallel platform ...
This paper presents the different possibilities for parallel processing in robot control architectur...
This paper describes a fully implemented computational architecture that controls the Utah-MIT dex...
This thesis outlines the evolution of computer hardware and software architectures which are suitabl...
Abstract. Due to the fast innovation speed in the hardware and software technologies in the field of...
International audienceThis paper presents a multi-level formalism to achieve a hierarchical control ...
Combining position and force control is highly desirable in many robot applications. Many years of e...
Combining position and force control is highly desirable in many robot applications. Many years of e...
This paper presents advantages of using open architecture for the real-time control of robot manipul...
The capabilities of a robotic system are strongly constrained by the capabilities of its control sof...
This thesis explores the fundamentals of a new class of parallel mechanisms called parallel mechanis...
This paper introduces a six-legged autonomous robot managed by a single controller and a software co...
Robotic manipulators pose a challenging problem to control system theory. Classical controllers, suc...
This paper presents a practical implementation, using reconfigurable computing applied to robotic pr...
This paper shows that a hierarchical architecture, distributing the several control actions in growi...
The goal of this project is to develop a system able to control the movement of a parallel platform ...
This paper presents the different possibilities for parallel processing in robot control architectur...
This paper describes a fully implemented computational architecture that controls the Utah-MIT dex...
This thesis outlines the evolution of computer hardware and software architectures which are suitabl...
Abstract. Due to the fast innovation speed in the hardware and software technologies in the field of...
International audienceThis paper presents a multi-level formalism to achieve a hierarchical control ...
Combining position and force control is highly desirable in many robot applications. Many years of e...
Combining position and force control is highly desirable in many robot applications. Many years of e...
This paper presents advantages of using open architecture for the real-time control of robot manipul...
The capabilities of a robotic system are strongly constrained by the capabilities of its control sof...
This thesis explores the fundamentals of a new class of parallel mechanisms called parallel mechanis...
This paper introduces a six-legged autonomous robot managed by a single controller and a software co...
Robotic manipulators pose a challenging problem to control system theory. Classical controllers, suc...