This thesis is related to motion control and planning algorithms for humanoid robots. For such highly-parameterized systems, numerical methods are well adapted and have thus been the enter of increasing attention in the recent years. Among the prominent numerical schemes, we recognized the prioritized inverse kinematics and dynamics frameworks to hold key features to plan motion for humanoid robots, such as the possibility to control the motion while enforcing a strict priority order among tasks. We have, however, identified a lack of support of strict priority enforcement when inequality constraints are to be accounted for in the numerical schemes and we were successful in proposing a solution to this shortcoming. We also considered the pr...
This thesis deals with the development and study of algorithms for planning optimal motions for anth...
The presented work is divided into two parts. In the first one, an unified computer representation f...
If humanoid robots should work along with humans and should be able to solve repetitive tasks, we ne...
This thesis is related to motion control and planning algorithms for humanoid robots. For such highl...
This thesis deals with the development and analysis of motion planning algorithms for high dimension...
We propose a unified planning approach for autonomous humanoid robots that perform dexterous locomot...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
This thesis focuses on realization of tasks with locomotion on humanoid robots. Thanks to their nume...
This master thesis presents a new planning framework for multi-contact interaction of humanoid robot...
If humanoid robots should work along with humans and should be able to solve repetitive tasks, we ne...
The locomotion problem in robotics is usually written as a large optimization problem. This problem ...
Nous proposons une approche de planification unifiée pour robots humanoïdes réalisant des tâches de ...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
L'objet de cette thèse est le développement et l'étude des algorithmes de planification de mouvement...
This thesis deals with the development and study of algorithms for planning optimal motions for anth...
The presented work is divided into two parts. In the first one, an unified computer representation f...
If humanoid robots should work along with humans and should be able to solve repetitive tasks, we ne...
This thesis is related to motion control and planning algorithms for humanoid robots. For such highl...
This thesis deals with the development and analysis of motion planning algorithms for high dimension...
We propose a unified planning approach for autonomous humanoid robots that perform dexterous locomot...
In this thesis we investigate two types of approaches for footstep planning for humanoid robots: on ...
This thesis focuses on realization of tasks with locomotion on humanoid robots. Thanks to their nume...
This master thesis presents a new planning framework for multi-contact interaction of humanoid robot...
If humanoid robots should work along with humans and should be able to solve repetitive tasks, we ne...
The locomotion problem in robotics is usually written as a large optimization problem. This problem ...
Nous proposons une approche de planification unifiée pour robots humanoïdes réalisant des tâches de ...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
L'objet de cette thèse est le développement et l'étude des algorithmes de planification de mouvement...
This thesis deals with the development and study of algorithms for planning optimal motions for anth...
The presented work is divided into two parts. In the first one, an unified computer representation f...
If humanoid robots should work along with humans and should be able to solve repetitive tasks, we ne...