International audienceOver the past decade, the Differential Dynamic Programming (DDP) method has gained in maturity and popularity within the robotics community. Several recent contributions have led to the integration of constraints within the original DDP formulation, hence enlarging its domain of application while making it a strong and easy-to-implement competitor against alternative methods of the state of the art such as collocation or multiple-shooting approaches. Yet, and similarly to its competitors, DDP remains unable to cope with high-dimensional dynamics within a receding horizon fashion, such as in the case of online generation of athletic motion on humanoid robots. In this paper, we propose to make a step towards this objecti...
We present an algorithm, based on the Differential Dynamic Programming framework, to handle trajecto...
This paper presents a methodology for generating locally optimal control policies for mechanical sys...
We propose an efficient way of solving optimal control problems for rigid-body systems on the basis ...
International audienceOver the past decade, the Differential Dynamic Programming (DDP) method has ga...
International audienceTrajectory optimization is an efficient approach for solving optimal control p...
Differential dynamic programming (DDP) is a direct single shooting method for trajectory optimizatio...
Abstract — Trajectory optimizers are a powerful class of methods for generating goal-directed robot ...
This letter introduces a differential dynamic programming (DDP) based framework for polynomial traje...
International audienceA common strategy to generate efficient locomotion movements is to split the p...
The control of high-dimensional, continuous, non-linear dynamical systems is a key problem in reinfo...
In this thesis we present practical tools and techniques to numerically solve optimal control proble...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
International audienceThis paper deals with the generation of motion for complex dynamical systems (...
In this thesis, the development of the differential dynamic programming (DDP) algorithm is extensive...
International audienceWe introduce Crocoddyl (Contact RObot COntrol by Differential DYnamic Library)...
We present an algorithm, based on the Differential Dynamic Programming framework, to handle trajecto...
This paper presents a methodology for generating locally optimal control policies for mechanical sys...
We propose an efficient way of solving optimal control problems for rigid-body systems on the basis ...
International audienceOver the past decade, the Differential Dynamic Programming (DDP) method has ga...
International audienceTrajectory optimization is an efficient approach for solving optimal control p...
Differential dynamic programming (DDP) is a direct single shooting method for trajectory optimizatio...
Abstract — Trajectory optimizers are a powerful class of methods for generating goal-directed robot ...
This letter introduces a differential dynamic programming (DDP) based framework for polynomial traje...
International audienceA common strategy to generate efficient locomotion movements is to split the p...
The control of high-dimensional, continuous, non-linear dynamical systems is a key problem in reinfo...
In this thesis we present practical tools and techniques to numerically solve optimal control proble...
© 2020 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
International audienceThis paper deals with the generation of motion for complex dynamical systems (...
In this thesis, the development of the differential dynamic programming (DDP) algorithm is extensive...
International audienceWe introduce Crocoddyl (Contact RObot COntrol by Differential DYnamic Library)...
We present an algorithm, based on the Differential Dynamic Programming framework, to handle trajecto...
This paper presents a methodology for generating locally optimal control policies for mechanical sys...
We propose an efficient way of solving optimal control problems for rigid-body systems on the basis ...