Humanoid robots are increasingly demanded to operate in interactive and human-surrounded environments while achieving sophisticated locomotion and manipulation tasks. To accomplish these tasks, roboticists unremittingly seek for advanced methods that generate whole-body coordination behaviors and meanwhile fulfill various planning and control objectives. Undoubtedly, these goals pose fundamental challenges to the robotics and control community. To take an incremental step towards reducing the performance gap between theoretical foundations and real implementations, we present a planning and control framework for the humanoid, especially legged robots, for achieving high performance and generating agile motions. A particular concentration is...
In the near future, mobile machines are expected to leave the labs and perform more and more comple...
This thesis presents a predictive control approach to generate trajectories for humanoid robots. To ...
Humanoid locomotion control is challenging due to the presence of underactuated dynamics, with const...
Humanoid robots are increasingly demanded to operate in interactive and human-surrounded environment...
The greatest potential for humanoid robots is that they will someday be able to robustly traverse an...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
2018-07-26In this work, we explore computationally lightweight optimization-based methods for planni...
While studies on humanoid robots have matured in recent years, deploying a practical and versatile h...
The complexity of robot dynamics and contact model are only a few of the challenges that increase th...
Humanoid robots have been developed with the intention of aiding in environments designed for humans...
Walking is a core task for humanoid robots. Most existing walking controllers fall into one of two c...
We propose a locomotion framework for bipedal robots consisting of a new motion planning method, dub...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
While the area of whole-body controllers for humanoids have matured in recent years, deploying human...
Humanoid robots have been developed with the intention of aiding in environments designed for humans...
In the near future, mobile machines are expected to leave the labs and perform more and more comple...
This thesis presents a predictive control approach to generate trajectories for humanoid robots. To ...
Humanoid locomotion control is challenging due to the presence of underactuated dynamics, with const...
Humanoid robots are increasingly demanded to operate in interactive and human-surrounded environment...
The greatest potential for humanoid robots is that they will someday be able to robustly traverse an...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
2018-07-26In this work, we explore computationally lightweight optimization-based methods for planni...
While studies on humanoid robots have matured in recent years, deploying a practical and versatile h...
The complexity of robot dynamics and contact model are only a few of the challenges that increase th...
Humanoid robots have been developed with the intention of aiding in environments designed for humans...
Walking is a core task for humanoid robots. Most existing walking controllers fall into one of two c...
We propose a locomotion framework for bipedal robots consisting of a new motion planning method, dub...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
While the area of whole-body controllers for humanoids have matured in recent years, deploying human...
Humanoid robots have been developed with the intention of aiding in environments designed for humans...
In the near future, mobile machines are expected to leave the labs and perform more and more comple...
This thesis presents a predictive control approach to generate trajectories for humanoid robots. To ...
Humanoid locomotion control is challenging due to the presence of underactuated dynamics, with const...