As position control alone is not sufficient for machine walking, force control. is therefore suggested. The foot force control allows better force distribution among the legs and therefore reduces the chance of overloading the leg actuators. However, force control is still a problem in manipulators and walking machines during the contact with obstacles, partly due to the high stiffness between motor and load. Small changes in position will cause big changes in force, therefore the system is likely to be unstable.Master of Engineering (MPE
This paper addresses the problem of modelling and control of biped robot by combining Cartesian-base...
This paper analyzes the performance of a classical position PD algorithm and a new cascade controlle...
AbstractFunctional electrical stimulation (FES) technology carries the potential for restoring walki...
Force control of legs of evolving walking machines is assumed to be essential in natural soft and un...
Walking stability of a walking machine is the main focus in this work. A new designed leg mechanism ...
Force control of walking machines is essential in a natural soft and uneven terrain. A load adaptive...
A rectangular vehicle "Masha" and a hexagonal vehicle "Mag" are considered The vehicle "Mag" was dev...
In this thesis, the system architecture is designed and some control methods are studied for a propo...
The contribution is focused on design of multi-legged robot leg as an autonomous system. Leg is comp...
From what we know at present with respect to the neural control of walking, it can be concluded that...
Compared with a wheeled mobile robot, a legged robot is more capable to walk in un-structured natura...
From what we know at present with respect to the neural control of walking, it can be concluded that...
Walking in insects and machines is considered as an example of a difficult motor control problem inv...
Background: Interlimb neural coupling implies that arm swing should be included during gait training...
New results on the development of an adaptive sixlegged hexagonal walking robot and its control syst...
This paper addresses the problem of modelling and control of biped robot by combining Cartesian-base...
This paper analyzes the performance of a classical position PD algorithm and a new cascade controlle...
AbstractFunctional electrical stimulation (FES) technology carries the potential for restoring walki...
Force control of legs of evolving walking machines is assumed to be essential in natural soft and un...
Walking stability of a walking machine is the main focus in this work. A new designed leg mechanism ...
Force control of walking machines is essential in a natural soft and uneven terrain. A load adaptive...
A rectangular vehicle "Masha" and a hexagonal vehicle "Mag" are considered The vehicle "Mag" was dev...
In this thesis, the system architecture is designed and some control methods are studied for a propo...
The contribution is focused on design of multi-legged robot leg as an autonomous system. Leg is comp...
From what we know at present with respect to the neural control of walking, it can be concluded that...
Compared with a wheeled mobile robot, a legged robot is more capable to walk in un-structured natura...
From what we know at present with respect to the neural control of walking, it can be concluded that...
Walking in insects and machines is considered as an example of a difficult motor control problem inv...
Background: Interlimb neural coupling implies that arm swing should be included during gait training...
New results on the development of an adaptive sixlegged hexagonal walking robot and its control syst...
This paper addresses the problem of modelling and control of biped robot by combining Cartesian-base...
This paper analyzes the performance of a classical position PD algorithm and a new cascade controlle...
AbstractFunctional electrical stimulation (FES) technology carries the potential for restoring walki...