A fully actuated system can execute any joint trajectory. However, if a system is under-actuated, not all joint trajectories are attainable. The authors have actively pursued novel designs of under-actuated robotic arms which are both controllable and feedback linearizable. These robots can perform point-to-point motions in the state space, but potentially can be designed to work with fewer actuators, hence with lower cost. With this same spirit, the technical note investigates the property of differential flatness for a class of planar under-actuated open-chain robots having a specific inertia distribution, but driven by only one or two actuators. This technical note addresses the following theoretical question: what placement of one or tw...
For bipedal walking, a set of joint trajectories is acceptable as long as it satisfies certain overa...
This document is a technical report that reports the results and proofs of the differential flatness...
Presentado al IDETC/CIE celebrado en San Diego (USA) del 30 de agosto al 2 de septiembre de 2009.It ...
A fully actuated system can execute any joint trajectory. However, if a system is under-actuated, no...
Control of nonlinear under-actuated systems is an area of ongoing research. In certain applications,...
This paper deals with the problem of feedback linearization, either by dynamic or static feedback, ...
Mobile manipulators are intrinsically nonholonomic systems since the mobile base is subject to nonho...
Under-actuated robots are very interesting in terms of cost and weight since they can result in a st...
The motion of a free-floating space robot is characterized by the principle of conservation of angul...
Abstract- The motion of a free-floating space robot is characterized by the principle of conservatio...
We introduce a particularly relevant class of aerial manipulators that we name protocentric. These r...
This paper shows how to generate under-actuated manipulators by substituting non-holonomic spherical...
International audienceIn this paper we introduce a particularly relevant class of aerial manipulator...
It is well known that a controllable nonlinear system will retain its controllabality when new actua...
The article of record as published may be found at http://dx.doi.org/10.1109/70.258049Published in: ...
For bipedal walking, a set of joint trajectories is acceptable as long as it satisfies certain overa...
This document is a technical report that reports the results and proofs of the differential flatness...
Presentado al IDETC/CIE celebrado en San Diego (USA) del 30 de agosto al 2 de septiembre de 2009.It ...
A fully actuated system can execute any joint trajectory. However, if a system is under-actuated, no...
Control of nonlinear under-actuated systems is an area of ongoing research. In certain applications,...
This paper deals with the problem of feedback linearization, either by dynamic or static feedback, ...
Mobile manipulators are intrinsically nonholonomic systems since the mobile base is subject to nonho...
Under-actuated robots are very interesting in terms of cost and weight since they can result in a st...
The motion of a free-floating space robot is characterized by the principle of conservation of angul...
Abstract- The motion of a free-floating space robot is characterized by the principle of conservatio...
We introduce a particularly relevant class of aerial manipulators that we name protocentric. These r...
This paper shows how to generate under-actuated manipulators by substituting non-holonomic spherical...
International audienceIn this paper we introduce a particularly relevant class of aerial manipulator...
It is well known that a controllable nonlinear system will retain its controllabality when new actua...
The article of record as published may be found at http://dx.doi.org/10.1109/70.258049Published in: ...
For bipedal walking, a set of joint trajectories is acceptable as long as it satisfies certain overa...
This document is a technical report that reports the results and proofs of the differential flatness...
Presentado al IDETC/CIE celebrado en San Diego (USA) del 30 de agosto al 2 de septiembre de 2009.It ...