A rectangular vehicle "Masha" and a hexagonal vehicle "Mag" are considered The vehicle "Mag" was developed at the Fraunhofer Institute for Factory Operation and automation. Both vehicle have six legs with three powered degrees of freedom each. Three component force sensor are mounted into the shanks. The control system of the robots consists of lower and upper levels. The position control system enables the computation of commanded motion of the leg tips and positional feedback. Force feedback is added to the positional control system. By using force information it becomes possible to solve a large number of tasks The force control is needed to rise the adaptability of the vehicle to irregular terrain to distribute the forces in locomotion ...
Robotic systems are increasingly being used for tasks that humans are incapable or unwilling to perf...
As position control alone is not sufficient for machine walking, force control. is therefore suggest...
Fast, ecient and versatile locomotion is the objective of the cutting-edge research of legged robots...
New results on the development of two adaptive six-legged vehicle-rectangular and hexagonal - and th...
Force control of legs of evolving walking machines is assumed to be essential in natural soft and un...
New results on the development of an adaptive sixlegged hexagonal walking robot and its control syst...
A number of legged vehicles are being developed for their mobility characteristics over irregular te...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
This paper presents the control system of a six-legged vehicle including force control. Considered c...
Multi-limb robots have the potential to be dexterous in manipulation and be able to locomote in chal...
New results on the development of an adaptive six-legged hexagonal walking robot and its control sys...
This thesis is a study on controlling methods for six-legged robots. The study is based on mathemati...
thesisLegs are found to be a better mode of locomotion than wheels when it comes to mobile robots tr...
As the concern for environmental changes and diminishing oil resources grows more and more, the tren...
The topic of this thesis is to identify a surface with robot force control. To achieve this a robot ...
Robotic systems are increasingly being used for tasks that humans are incapable or unwilling to perf...
As position control alone is not sufficient for machine walking, force control. is therefore suggest...
Fast, ecient and versatile locomotion is the objective of the cutting-edge research of legged robots...
New results on the development of two adaptive six-legged vehicle-rectangular and hexagonal - and th...
Force control of legs of evolving walking machines is assumed to be essential in natural soft and un...
New results on the development of an adaptive sixlegged hexagonal walking robot and its control syst...
A number of legged vehicles are being developed for their mobility characteristics over irregular te...
Legged robots present an incredible opportunity for humanity to conduct dangerous operations such as...
This paper presents the control system of a six-legged vehicle including force control. Considered c...
Multi-limb robots have the potential to be dexterous in manipulation and be able to locomote in chal...
New results on the development of an adaptive six-legged hexagonal walking robot and its control sys...
This thesis is a study on controlling methods for six-legged robots. The study is based on mathemati...
thesisLegs are found to be a better mode of locomotion than wheels when it comes to mobile robots tr...
As the concern for environmental changes and diminishing oil resources grows more and more, the tren...
The topic of this thesis is to identify a surface with robot force control. To achieve this a robot ...
Robotic systems are increasingly being used for tasks that humans are incapable or unwilling to perf...
As position control alone is not sufficient for machine walking, force control. is therefore suggest...
Fast, ecient and versatile locomotion is the objective of the cutting-edge research of legged robots...