Add to ORKGThis paper addresses some performance limits of the kneed and non-kneed passive-dynamic walking machines discovered by McGeer [10, 11]. Energetic inefficiency is measured by the slope ° needed to sus-tain gait, with ° = 0 being perfectly efficient. We show some necessary conditions on the walker mass distribution to achieve perfectly efficient walking. From our experience and study of a simpler model, only two gaits exist; the longer-step gait is stable at small enough slopes. Speed is regulated by energy dissipation. Dissipation can be dominated by a term propor-tional to speed2 or a term proportional to speed4 from normal foot collisions, depending on the gait, slope, and walker design. For special mass distributions of kneeless walkers,...
In this paper, we study gait optimization of ballistic walking in order to understand the natural dy...
Passive dynamic walkers can achieve a steady gait down an inclined plane simply by the influence of ...
Even though bipedal walking robots have been studied for decades, they still suffer from poor energy...
We consider passive dynamic walking machines of the kind originally studied by McGeer. For passive w...
We consider passive dynamic walking machines of the kind originally studied by McGeer. For passive w...
We consider passive dynamic walking machines of the kind originally studied by McGeer. For passive w...
We demonstrate that an irreducibly simple, uncontrolled, 2D, two-link model, vaguely resembling huma...
The biped dynamic walker considered in this paper has three actuators - two at the ankle joints and ...
This work explores regulation of forward speed, step length, and slope walking for the passive-dynam...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
Dynamic walking approach has got its significance because of its energy efficiency in walking.\ud Wa...
This paper presents a seven-link dynamic walking model that is more close to human beings. We add hi...
In this paper, we investigate dynamic walking as a convergence to the system's own limit cycles...
“Limit Cycle Walking ” is a relatively new paradigm for the design and control of two-legged walking...
A popular hypothesis regarding legged locomotion is that humans and other large animals walk and run...
In this paper, we study gait optimization of ballistic walking in order to understand the natural dy...
Passive dynamic walkers can achieve a steady gait down an inclined plane simply by the influence of ...
Even though bipedal walking robots have been studied for decades, they still suffer from poor energy...
We consider passive dynamic walking machines of the kind originally studied by McGeer. For passive w...
We consider passive dynamic walking machines of the kind originally studied by McGeer. For passive w...
We consider passive dynamic walking machines of the kind originally studied by McGeer. For passive w...
We demonstrate that an irreducibly simple, uncontrolled, 2D, two-link model, vaguely resembling huma...
The biped dynamic walker considered in this paper has three actuators - two at the ankle joints and ...
This work explores regulation of forward speed, step length, and slope walking for the passive-dynam...
Passive dynamic walking refers to a class of bipedal machines that are able to walk down a gentle sl...
Dynamic walking approach has got its significance because of its energy efficiency in walking.\ud Wa...
This paper presents a seven-link dynamic walking model that is more close to human beings. We add hi...
In this paper, we investigate dynamic walking as a convergence to the system's own limit cycles...
“Limit Cycle Walking ” is a relatively new paradigm for the design and control of two-legged walking...
A popular hypothesis regarding legged locomotion is that humans and other large animals walk and run...
In this paper, we study gait optimization of ballistic walking in order to understand the natural dy...
Passive dynamic walkers can achieve a steady gait down an inclined plane simply by the influence of ...
Even though bipedal walking robots have been studied for decades, they still suffer from poor energy...