The most important feature of this paper is to transform the complex motion of robot turning into a simple translational motion, thus simplifying the dynamic model. Compared with the method that generates a center of mass (COM) trajectory directly by the inverted pendulum model, this method is more precise. The non-inertial reference is introduced in the turning walk. This method can translate the turning walk into a straight-line walk when the inertial forces act on the robot. The dynamics of the robot model, called linear inverted pendulum (LIP), are changed and improved dynamics are derived to make them apply to the turning walk model. Then, we expend the new LIP model and control the zero moment point (ZMP) to guarantee the stability of...
This paper presents a Model Predictive Control (MPC) scheme capable of generating a 3D gait for a hu...
This thesis proposes methods for biped walking locomotion with feet rotation. The chief objective o...
Current state-of-the-art walking controllers for humanoid robots use simple models, such as Linear I...
The most important feature of this paper is to transform the complex motion of robot turning into a ...
International audienceThe modeling of humanoid robots with many degrees-of-freedom (DoF) can be done...
Humanoid robots attracted the attention of many researchers in the last four decades. The control of...
Humanoid robotics attracted the attention of many researchers in the past 35 years. The motivation o...
International audienceWalking stability is one of the key issues for humanoid robots. A self-stabili...
Abstract — This paper proposes a method of a real-time gait planning for humanoid robots which can c...
AbstractDynamic gait planning for humanoid robots encounters difficulties such as stability, speed, ...
The purpose of this study is to develop a stable bipedal walking method based on preview control for...
As the first step for biped robots to enter the human life, robust walking is a difficult problem to...
This electronic version was submitted by the student author. The certified thesis is available in th...
In this paper, we address the problem of gait generation for bipedal robots. We cast the determinati...
Walking trajectory generation for a humanoid robot is a challenging control issue. In this paper, a...
This paper presents a Model Predictive Control (MPC) scheme capable of generating a 3D gait for a hu...
This thesis proposes methods for biped walking locomotion with feet rotation. The chief objective o...
Current state-of-the-art walking controllers for humanoid robots use simple models, such as Linear I...
The most important feature of this paper is to transform the complex motion of robot turning into a ...
International audienceThe modeling of humanoid robots with many degrees-of-freedom (DoF) can be done...
Humanoid robots attracted the attention of many researchers in the last four decades. The control of...
Humanoid robotics attracted the attention of many researchers in the past 35 years. The motivation o...
International audienceWalking stability is one of the key issues for humanoid robots. A self-stabili...
Abstract — This paper proposes a method of a real-time gait planning for humanoid robots which can c...
AbstractDynamic gait planning for humanoid robots encounters difficulties such as stability, speed, ...
The purpose of this study is to develop a stable bipedal walking method based on preview control for...
As the first step for biped robots to enter the human life, robust walking is a difficult problem to...
This electronic version was submitted by the student author. The certified thesis is available in th...
In this paper, we address the problem of gait generation for bipedal robots. We cast the determinati...
Walking trajectory generation for a humanoid robot is a challenging control issue. In this paper, a...
This paper presents a Model Predictive Control (MPC) scheme capable of generating a 3D gait for a hu...
This thesis proposes methods for biped walking locomotion with feet rotation. The chief objective o...
Current state-of-the-art walking controllers for humanoid robots use simple models, such as Linear I...