International audienceThe aim of this paper is to develop a complete walking with a starting, periodic and stopping motion for a 3D humanoid robot with n actuated variables. The dynamic behaviour of the center of mass of the humanoid robot is defined by a model called Essential model. The ZMP is imposed, the horizontal position of the CoM is free. The n − 2 other generalized variables of the humanoid robot are controlled and their trajectories can be for example chosen as a sinusoidal function of time. The gait parameters are determined based on data obtained from human walking. Numerical tests are presented for a complete walking motion. The perspectives are to test the obtained trajectories experimentally
This paper focuses on the walking improvement of a biped robot. The zero-moment point (ZMP) method i...
Abstract — The approximation of humanoid robot by an inverted pendulum is one of the most used model...
This thesis describes the design and implementation of a Walking Algorithm for the humanoid robot. T...
International audienceThis paper seeks to define the anthropomorphic walking motion for the humanoid...
International audienceThe modeling of humanoid robots with many degrees-of-freedom (DoF) can be done...
International audienceHuman walking has been intensely studied, but it is di cult to reproduce on hu...
International audienceWalking stability is one of the key issues for humanoid robots. A self-stabili...
The complete development process for achieving walking motion with a recently constructed humanoid r...
Walking trajectory generation for a humanoid robot is a challenging control issue. In this paper, a...
The objective of this thesis is to develop a method for generating various human-inspired walking mo...
Passive Dynamic Walking (PDW) has been receiv-ing increasing attention as a simple walking method wi...
International audienceWe present here a detailed description of the walking algorithm that was desig...
International audienceIn order to fluidly perform complex tasks in collaboration with a human being,...
International audienceIn order to smoothly perform interactions between a humanoid robot and a human...
This thesis aims at generating human-like, whole-body humanoid motion trajectories and introducing a...
This paper focuses on the walking improvement of a biped robot. The zero-moment point (ZMP) method i...
Abstract — The approximation of humanoid robot by an inverted pendulum is one of the most used model...
This thesis describes the design and implementation of a Walking Algorithm for the humanoid robot. T...
International audienceThis paper seeks to define the anthropomorphic walking motion for the humanoid...
International audienceThe modeling of humanoid robots with many degrees-of-freedom (DoF) can be done...
International audienceHuman walking has been intensely studied, but it is di cult to reproduce on hu...
International audienceWalking stability is one of the key issues for humanoid robots. A self-stabili...
The complete development process for achieving walking motion with a recently constructed humanoid r...
Walking trajectory generation for a humanoid robot is a challenging control issue. In this paper, a...
The objective of this thesis is to develop a method for generating various human-inspired walking mo...
Passive Dynamic Walking (PDW) has been receiv-ing increasing attention as a simple walking method wi...
International audienceWe present here a detailed description of the walking algorithm that was desig...
International audienceIn order to fluidly perform complex tasks in collaboration with a human being,...
International audienceIn order to smoothly perform interactions between a humanoid robot and a human...
This thesis aims at generating human-like, whole-body humanoid motion trajectories and introducing a...
This paper focuses on the walking improvement of a biped robot. The zero-moment point (ZMP) method i...
Abstract — The approximation of humanoid robot by an inverted pendulum is one of the most used model...
This thesis describes the design and implementation of a Walking Algorithm for the humanoid robot. T...