Add to ORKGSuddenly occurring collisions or unintentional motions represent a high safety risk in robotics and must be prevented. Especially for humanoid robots, the influence of disturbances that occur unexpectedly during bipedal locomotion are difficult to compensate. A model based online control approach for stabilization of a humanoid robot with many degrees of freedom may require too much time for computing and implementing an adequate compensating motion. In addition, such a control approach usually requires accurate sensor information about the type and magnitude of the disturbance. The goal of the present paper is a reflex based online stabilization control of a humanoid robot actuator based on artificial SMA muscles. The design of a humanoid ...
We propose an efficient and powerful alternative for adaptation of human motions to humanoid robots ...
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
This paper deals with the whole body motion control problem of humanoid robots by using automatic an...
Suddenly occurring collisions or unintentional motions represent a high safety risk in robotics and ...
Humanoid robots are gaining much interest nowadays. This is partly motivated by the ability of such ...
This paper describes a biologically-inspired control architecture for the McKibben actuated limbs of...
A humanoid robot is expected to experience various force disturbances during interaction with humans...
Humanoid robots are considered as complex and challenging platforms, and the state of the art in rob...
This book investigates a biologically inspired method of robot arm control, developed with the objec...
Despite many efforts, balance control of humanoid robots in the presence of unforeseen external or i...
In this paper, we illustrate the low level reflex control used to govern an anthropomorphic artifici...
Recent improvements in the actuators and the control methods allow the production of humanoid robots...
We present a biped locomotion controller for humanoid models actuated by more than a hundred Hill-ty...
It has been shown that human-like hopping can be achieved by muscle reflex control in neuromechanica...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
We propose an efficient and powerful alternative for adaptation of human motions to humanoid robots ...
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
This paper deals with the whole body motion control problem of humanoid robots by using automatic an...
Suddenly occurring collisions or unintentional motions represent a high safety risk in robotics and ...
Humanoid robots are gaining much interest nowadays. This is partly motivated by the ability of such ...
This paper describes a biologically-inspired control architecture for the McKibben actuated limbs of...
A humanoid robot is expected to experience various force disturbances during interaction with humans...
Humanoid robots are considered as complex and challenging platforms, and the state of the art in rob...
This book investigates a biologically inspired method of robot arm control, developed with the objec...
Despite many efforts, balance control of humanoid robots in the presence of unforeseen external or i...
In this paper, we illustrate the low level reflex control used to govern an anthropomorphic artifici...
Recent improvements in the actuators and the control methods allow the production of humanoid robots...
We present a biped locomotion controller for humanoid models actuated by more than a hundred Hill-ty...
It has been shown that human-like hopping can be achieved by muscle reflex control in neuromechanica...
Industrial robots significantly improve the productivity of manufacturing operations performing vari...
We propose an efficient and powerful alternative for adaptation of human motions to humanoid robots ...
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
This paper deals with the whole body motion control problem of humanoid robots by using automatic an...