Jérôme Marot scite author profile

Jérôme Marot

3Publications

26Citation Statements Received

119Citation Statements Given

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119

Affiliations

University of Poitiers, French National Centre for Scientific Research

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Parametric-based dynamic synthesis of 3D-gait

et al. 2009

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This paper describes a dynamic synthesis method for generating optimal walking patterns of biped robots having a human-like locomotion system. The generating principle of gait is based on the minimisation of driving torques. A parametric optimisation technique is used to solve the underlying optimal control problem. Special attention is devoted to foot-ground interactions in order to ensure a steady dynamic balance of the biped. Transition states between step sub-phases are fully optimised together with step length and sub-phase lengths with respect to a given walking velocity. The data needed to generate purely cyclic steps can be reduced to the forward velocity.

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Control of a Biped Robot by Total Rate of Angular Momentum Using the Task Function Approach

Rojas-Estrada

Marot

Sardain

et al. 2005

Applied Bionics and Biomechanics

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In this work we address the control problem of biped robots by using the task function approach. A problem arrives when one of the feet is in contact with the ground, which presents imperfections. There is then the possibility that the biped robot undergoes a fall. It is difficult to track any trajectory due to the presence of unevenness on the ground. What we propose is to use the task function approach combined with the application of the total rate of angular momentum to obtain a control law for the ankle. By this technique, the tracking becomes more smooth and the balance is assured. The control law proposed allows the upper part of the robot to be controlled independently since only the ankle actuators are concerned. We enounce the formal problem and present some simulations with real parameters of a 21 degrees of freedom biped robot.

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Control of a Biped Robot by Total Rate of Angular Momentum Using the Task Function Approach

Rojas-Estrada

Marot

Sardain

et al. 2005

Applied Bionics and Biomechanics

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Jérôme Marot

Parametric-based dynamic synthesis of 3D-gait

Control of a Biped Robot by Total Rate of Angular Momentum Using the Task Function Approach

Control of a Biped Robot by Total Rate of Angular Momentum Using the Task Function Approach

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