This paper proposes a foot shape design to enhance stability of passive dynamic walk, by constraining fall down phenomenon in both saggital and lateral planes. From geometrical analysis, we found that stability under a wide range of slope inclinations will be achieved by limiting swing legs spatially in a certain angle. We also found that the limiting leg's angles, we call constraint mechanisms, are achieved by a certain type of a 3D sole shape, which provides stability in a compact size. We show the turning motion for a passive dynamic biped walker with constrained mechanisms
A passive walker can walk down shallow slope. This gait, which results from the interaction between ...
It is difficult to stabilize the three dimensional biped passive walker in various environments beca...
This thesis presents a hierarchical geometric control approach for fast and energetically efficient ...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
doi: 10.1109/ICARCV.2014.7064474One of the ideal methods to stabilize passive dynamic walk is to res...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
doi: 10.20965/jrm.2010.p0363This paper verified the stability of passive dynamic bipedal walking ind...
One of the methods known to stabilize a passive dynamic walk is to restrict a hip joint angle. The h...
Abstract—Stability control for walking bipeds has been consid-ered a complex task. Even two-dimensio...
Stability control for walking bipeds has been considered a complex task. Even two-dimensional fore-a...
Abstract — The passive dynamic walker described in this paper is a robot with a minimal number of de...
One of the main challenges in the design of human-like walking robots (useful for service or enterta...
A passive walker can walk down shallow slope with no energy source other than gravity. This motion i...
AbstractThe ability to turn is an essential feature for biped walkers to move around obstacles. This...
International audienceThis paper exploits a natural symmetry present in a 3D robot in order to achie...
A passive walker can walk down shallow slope. This gait, which results from the interaction between ...
It is difficult to stabilize the three dimensional biped passive walker in various environments beca...
This thesis presents a hierarchical geometric control approach for fast and energetically efficient ...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
doi: 10.1109/ICARCV.2014.7064474One of the ideal methods to stabilize passive dynamic walk is to res...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
doi: 10.20965/jrm.2010.p0363This paper verified the stability of passive dynamic bipedal walking ind...
One of the methods known to stabilize a passive dynamic walk is to restrict a hip joint angle. The h...
Abstract—Stability control for walking bipeds has been consid-ered a complex task. Even two-dimensio...
Stability control for walking bipeds has been considered a complex task. Even two-dimensional fore-a...
Abstract — The passive dynamic walker described in this paper is a robot with a minimal number of de...
One of the main challenges in the design of human-like walking robots (useful for service or enterta...
A passive walker can walk down shallow slope with no energy source other than gravity. This motion i...
AbstractThe ability to turn is an essential feature for biped walkers to move around obstacles. This...
International audienceThis paper exploits a natural symmetry present in a 3D robot in order to achie...
A passive walker can walk down shallow slope. This gait, which results from the interaction between ...
It is difficult to stabilize the three dimensional biped passive walker in various environments beca...
This thesis presents a hierarchical geometric control approach for fast and energetically efficient ...