Recently several hierarchical inverse dynamics controllers based on cascades of quadratic programs have been proposed for application on torque controlled robots. They have important theoretical benefits but have never been implemented on a torque controlled robot where model inaccuracies and real-time computation requirements can be problematic. In this contribution we present an experimental evaluation of these algorithms in the context of balance control for a humanoid robot. The presented experiments demonstrate the applicability of the approach under real robot conditions (i.e. model uncertainty, estimation errors, etc). We propose a simplification of the optimization problem that allows us to decrease computation time enough to implem...
This electronic version was submitted by the student author. The certified thesis is available in th...
Abstract—Nature has developed methods for controlling the movements of organisms with many degrees o...
International audienceIn this paper, we propose a solution to compute full-dynamic motions for a hum...
Abstract — In this contribution we propose a reformulation of a momentum-based balance controller or...
International audienceModel-based control has become more and more popular in the legged robots comm...
Abstract—This paper presents a control framework for humanoid robots that uses all joints simultaneo...
Although considering dynamics in the control of humanoid robots can improve tracking and compliance ...
2018-07-26In this work, we explore computationally lightweight optimization-based methods for planni...
International audienceThis work presents a passivity-based inverse dynamics (ID) controller using a ...
Currently the prevalence of general purpose mobile robots with manipulation capabilities is still lo...
This thesis focuses on implementing a program, using Python and the symbolic package SymPy, to evalu...
Control of two-wheeled humanoid robots poses several challenges due to the unstable dynamics of thei...
A novel balance control method for a humanoid robot is presented. It consists of a contact torque co...
<p>This thesis presents an online approach for controlling humanoid robots using hierarchical optimi...
Abstract—This paper introduces and compares two control approaches that increase the robustness of h...
This electronic version was submitted by the student author. The certified thesis is available in th...
Abstract—Nature has developed methods for controlling the movements of organisms with many degrees o...
International audienceIn this paper, we propose a solution to compute full-dynamic motions for a hum...
Abstract — In this contribution we propose a reformulation of a momentum-based balance controller or...
International audienceModel-based control has become more and more popular in the legged robots comm...
Abstract—This paper presents a control framework for humanoid robots that uses all joints simultaneo...
Although considering dynamics in the control of humanoid robots can improve tracking and compliance ...
2018-07-26In this work, we explore computationally lightweight optimization-based methods for planni...
International audienceThis work presents a passivity-based inverse dynamics (ID) controller using a ...
Currently the prevalence of general purpose mobile robots with manipulation capabilities is still lo...
This thesis focuses on implementing a program, using Python and the symbolic package SymPy, to evalu...
Control of two-wheeled humanoid robots poses several challenges due to the unstable dynamics of thei...
A novel balance control method for a humanoid robot is presented. It consists of a contact torque co...
<p>This thesis presents an online approach for controlling humanoid robots using hierarchical optimi...
Abstract—This paper introduces and compares two control approaches that increase the robustness of h...
This electronic version was submitted by the student author. The certified thesis is available in th...
Abstract—Nature has developed methods for controlling the movements of organisms with many degrees o...
International audienceIn this paper, we propose a solution to compute full-dynamic motions for a hum...