under Constraints This thesis studies the question of whole body motion generation for anthro-pomorphic systems. Within this work, the problem of modeling and control is considered by addressing the difficult issue of generating human-like motion. First, a dynamic model of the humanoid robot HRP-2 is elaborated based on the recursive Newton-Euler algorithm for spatial vectors. A new dynamic control scheme is then developed adopting a cascade of quadratic programs (QP) optimizing the cost functions and computing the torque control while satisfying equality and inequality constraints. The cascade of the quadratic programs is defined by a stack of tasks associated to a priority order. Next, we propose a unified formulation of the planar contac...
International audienceMulti-contact motion generation is an important problem in humanoid robotics b...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
Previously we have presented a model for generating human-like arm and hand movements on an unimanua...
This thesis studies the question of whole body motion generation for anthropomorphic systems. Within...
International audienceIn this paper, we propose a solution to compute full-dynamic motions for a hum...
International audienceThe most widely-used technique to generate wholebody motions on a humanoid rob...
2018-07-26In this work, we explore computationally lightweight optimization-based methods for planni...
Cette thèse propose une approche pour générer un mouvement corps complet avec contacts non coplanair...
This paper deals with the whole body motion control problem of humanoid robots by using automatic an...
Anthropomorphic locomotion is a complex process that involves a very large number of degrees of free...
We propose a unified planning approach for autonomous humanoid robots that perform dexterous locomot...
This thesis aims at providing a solution to the problem of motion generation for humanoid robots. Th...
This thesis deals with the development and study of algorithms for planning optimal motions for anth...
Abstract — The approximation of humanoid robot by an inverted pendulum is one of the most used model...
International audienceThis paper presents a computational approach for transferring principles of hu...
International audienceMulti-contact motion generation is an important problem in humanoid robotics b...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
Previously we have presented a model for generating human-like arm and hand movements on an unimanua...
This thesis studies the question of whole body motion generation for anthropomorphic systems. Within...
International audienceIn this paper, we propose a solution to compute full-dynamic motions for a hum...
International audienceThe most widely-used technique to generate wholebody motions on a humanoid rob...
2018-07-26In this work, we explore computationally lightweight optimization-based methods for planni...
Cette thèse propose une approche pour générer un mouvement corps complet avec contacts non coplanair...
This paper deals with the whole body motion control problem of humanoid robots by using automatic an...
Anthropomorphic locomotion is a complex process that involves a very large number of degrees of free...
We propose a unified planning approach for autonomous humanoid robots that perform dexterous locomot...
This thesis aims at providing a solution to the problem of motion generation for humanoid robots. Th...
This thesis deals with the development and study of algorithms for planning optimal motions for anth...
Abstract — The approximation of humanoid robot by an inverted pendulum is one of the most used model...
International audienceThis paper presents a computational approach for transferring principles of hu...
International audienceMulti-contact motion generation is an important problem in humanoid robotics b...
Humanoid robots are machines built with an anthropomorphic shape. Despite decades of research into t...
Previously we have presented a model for generating human-like arm and hand movements on an unimanua...