From what we know at present with respect to the neural control of walking, it can be concluded that an optimal biologically inspired robot could have the following features. The limbs should include several joints in which position changes can be obtained by actuators across the joints. The control of mono- and biarticular actuators should occur at least at three levels: one at direct control of the actuators (equivalent to motoneuron level), the second at indirect control acting at a level which controls whole limb movement (flexion or extension) and the third at a still higher level controlling the interlimb coordination. The limb level circuits should be able to produce alternating flexion and extension movements in the limb by means of...
The human nervous system stabilizes locomotion by continuously correcting for deviations away from t...
The neural control of human locomotion is not fully understood. As current experimental techniques p...
International audienceResearch in robot locomotion can be separated into few groups. The dominated r...
From what we know at present with respect to the neural control of walking, it can be concluded that...
From what we know at present with respect to the neural control of walking, it can be concluded that...
The traditional view of motor control predicates that the central nervous system dictates the motion...
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
In this dissertation, we describe the development of a humanoid bipedal robot that fully physically ...
International audienceThis paper concerns the simultaneous synthesis and control of walking gaits fo...
After millions of years of evolution, humans can achieve locomotion tasks in complex environments wi...
Living creatures, like walking animals, have found fascinating solutions for the problem of locomoti...
A large space of different neural models exists from simple mathematical abstractions to detailed bi...
Controlling motion at low energetic cost, both from mechanical and computational point of view, cert...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
Human locomotion shows fascinating abilities which are the results of the interplay between the envi...
The human nervous system stabilizes locomotion by continuously correcting for deviations away from t...
The neural control of human locomotion is not fully understood. As current experimental techniques p...
International audienceResearch in robot locomotion can be separated into few groups. The dominated r...
From what we know at present with respect to the neural control of walking, it can be concluded that...
From what we know at present with respect to the neural control of walking, it can be concluded that...
The traditional view of motor control predicates that the central nervous system dictates the motion...
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
In this dissertation, we describe the development of a humanoid bipedal robot that fully physically ...
International audienceThis paper concerns the simultaneous synthesis and control of walking gaits fo...
After millions of years of evolution, humans can achieve locomotion tasks in complex environments wi...
Living creatures, like walking animals, have found fascinating solutions for the problem of locomoti...
A large space of different neural models exists from simple mathematical abstractions to detailed bi...
Controlling motion at low energetic cost, both from mechanical and computational point of view, cert...
Human locomotion requires a complex interplay of the mechanical, sensor, neural and motor systems of...
Human locomotion shows fascinating abilities which are the results of the interplay between the envi...
The human nervous system stabilizes locomotion by continuously correcting for deviations away from t...
The neural control of human locomotion is not fully understood. As current experimental techniques p...
International audienceResearch in robot locomotion can be separated into few groups. The dominated r...