Coman is a compliant humanoid robot. The introduction of passive compliance in some of its joints affects the dynamics of the whole system. Unlike traditional stiff robots, there is a deflection of the joint angle with respect to the desired one whenever an external torque is applied. Following a bottom up approach, the dynamic equations of the joints are defined first. Then, a new model which combines the inverted pendulum approach with a three-dimensional (Cartesian) compliant model at the level of the center of mass is proposed. This compact model is based on some assumptions that reduce the complexity but at the same time affect the precision. To address this problem, additional parameters are inserted in the model equation and an optim...
Maintaining the balance is always a challenge issue for bipedal humanoid robots in dealing with vari...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Basa D, Schneider A. Learning point-to-point movements on an elastic limb using dynamic movement pri...
In ZMP trajectory generation using simple models, often a considerable amount of trials and errors a...
Safety is an important requirement for human-robot interaction. Compliance control can often help to...
This dissertation presents the results of a series of studies on dynamic stabilisation of CoMan, whi...
This paper reports on development of an open source dynamic simulator for the Compliant huMANoid rob...
In this paper, 3D humanoid walking is decoupled into periodic and transitional motion, each of which...
Humanoid robots are gaining much interest nowadays. This is partly motivated by the ability of such ...
Abstract—In this paper, we present a study on dynamic simulation to assist designing a high performa...
We present a multibody simulator being used for compliant humanoid robot modelling and report our re...
In this master thesis the development of a Cartesian impedance controller for the humanoid robot Jus...
Enhancing energy e�ciency of bipedal walking is an important research problem that has been approa...
Along this paper, we propose to model the learning process of the controller policy of a humanoid jo...
Two whole-body motion planning and control methods are presented in this report: trajectory generati...
Maintaining the balance is always a challenge issue for bipedal humanoid robots in dealing with vari...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Basa D, Schneider A. Learning point-to-point movements on an elastic limb using dynamic movement pri...
In ZMP trajectory generation using simple models, often a considerable amount of trials and errors a...
Safety is an important requirement for human-robot interaction. Compliance control can often help to...
This dissertation presents the results of a series of studies on dynamic stabilisation of CoMan, whi...
This paper reports on development of an open source dynamic simulator for the Compliant huMANoid rob...
In this paper, 3D humanoid walking is decoupled into periodic and transitional motion, each of which...
Humanoid robots are gaining much interest nowadays. This is partly motivated by the ability of such ...
Abstract—In this paper, we present a study on dynamic simulation to assist designing a high performa...
We present a multibody simulator being used for compliant humanoid robot modelling and report our re...
In this master thesis the development of a Cartesian impedance controller for the humanoid robot Jus...
Enhancing energy e�ciency of bipedal walking is an important research problem that has been approa...
Along this paper, we propose to model the learning process of the controller policy of a humanoid jo...
Two whole-body motion planning and control methods are presented in this report: trajectory generati...
Maintaining the balance is always a challenge issue for bipedal humanoid robots in dealing with vari...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Basa D, Schneider A. Learning point-to-point movements on an elastic limb using dynamic movement pri...