Add to ORKGWe propose to quantify the effect of sensor and actuator uncertainties on the control of the center of mass and center of pressure in legged robots, since this is central for maintaining their balance with a limited support polygon. Our approach is based on robust control theory, considering uncertainties that can take any value between specified bounds. This provides a principled approach to deciding optimal feedback gains. Surprisingly, our main observation is that the sampling period can be as long as 200 ms with literally no impact on maximum tracking error and, as a result, on the guarantee that balance can be maintained safely. Our findings are validated in simulations and experiments with the torquecontrolled humanoid robot...
Animals locomote robustly and agile, albeit significant sensorimotor delays of their nervous system ...
Robust locomotion is a challenging task for humanoid robots, especially when considering dynamic dis...
Humanoid robots are increasingly demanded to operate in interactive and human-surrounded environment...
We propose to quantify the effect of sensor and actuator uncertainties on the control of the center...
Biped and quadruped robots are beginning now to master the skill of walking dynamically in most stan...
Maintaining balance is fundamental to legged robots. The most commonly used mechanisms for balance c...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
This paper presents a comparison study of three control design approaches for humanoid balancing bas...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
International audienceModel-based control has become more and more popular in the legged robots comm...
The computational complexity of humanoid robot balance control is reduced through the application of...
In robotics, robustness is an important and desirable attribute of any system, from perception to p...
Posture control is indispensable for both humans and humanoid robots, which becomes especially evide...
Abstract — The performance of many legged robots today is limited by trajectory generation processes...
In this research, a miniaturized humanoid robot is constructed to ride and pedal a bicycle of compar...
Animals locomote robustly and agile, albeit significant sensorimotor delays of their nervous system ...
Robust locomotion is a challenging task for humanoid robots, especially when considering dynamic dis...
Humanoid robots are increasingly demanded to operate in interactive and human-surrounded environment...
We propose to quantify the effect of sensor and actuator uncertainties on the control of the center...
Biped and quadruped robots are beginning now to master the skill of walking dynamically in most stan...
Maintaining balance is fundamental to legged robots. The most commonly used mechanisms for balance c...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
This paper presents a comparison study of three control design approaches for humanoid balancing bas...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
International audienceModel-based control has become more and more popular in the legged robots comm...
The computational complexity of humanoid robot balance control is reduced through the application of...
In robotics, robustness is an important and desirable attribute of any system, from perception to p...
Posture control is indispensable for both humans and humanoid robots, which becomes especially evide...
Abstract — The performance of many legged robots today is limited by trajectory generation processes...
In this research, a miniaturized humanoid robot is constructed to ride and pedal a bicycle of compar...
Animals locomote robustly and agile, albeit significant sensorimotor delays of their nervous system ...
Robust locomotion is a challenging task for humanoid robots, especially when considering dynamic dis...
Humanoid robots are increasingly demanded to operate in interactive and human-surrounded environment...