Passive dynamic walkers exhibit stable human-like walking on inclined planes. The simplest model of this behavior is the well known passive compass gait (PCG) model, which consists of a point mass at the hip and two stick legs. Due to their passive nature, these systems rely on a sloped ground to recover energy lost to ground collisions. A variety of methods have been proposed to eliminate this requirement by using different actuation methods. In this study, we propose a simple model to investigate how series elastic actuation at the ankle can be used to achieve stable walking on level ground. The structure we propose is designed to behave in a similar fashion to how humans utilize toe push-off prior to leg liftoff, and is intended to be us...
This paper studies a two-legged kneed walking robot with point feet. At any given moment, only one f...
A passive walker can walk down shallow slope. This gait, which results from the interaction between ...
To achieve high walking stability for a passive dynamic walking robot is not easy. In this article, ...
Passive dynamic walking models capture the natural dynamics of stable human-like walking. The passiv...
Abstract: In this paper, methods to achieve actively powered walking on level ground using a simple ...
This paper presents a bipedal locomotion model for passive dynamic walking with flat feet and compli...
This paper investigates three-dimensional quasi-passive dynamic bipedal walking on level ground with...
The concept of “passive dynamic walking robot” refers to the robot that can walk down a shallow slop...
Dynamic walking approach has got its significance because of its energy efficiency in walking.\ud Wa...
This paper presents a frontal model for the limit cycle walker which consists of upper body, flat fo...
This paper presents a passive dynamic walking model with segmented feet. The model extends the Simpl...
This paper investigates three-dimensional quasipassive dynamic bipedal walking on level ground with ...
Passive dynamic walking has been developed as a possible explanation for the efficiency of the human...
This paper deals with the analysis of planar bipedal robots, based on passive dynamic walkers, which...
This thesis explores the dynamics of two bipedal, passive-walker models that are free to move in a t...
This paper studies a two-legged kneed walking robot with point feet. At any given moment, only one f...
A passive walker can walk down shallow slope. This gait, which results from the interaction between ...
To achieve high walking stability for a passive dynamic walking robot is not easy. In this article, ...
Passive dynamic walking models capture the natural dynamics of stable human-like walking. The passiv...
Abstract: In this paper, methods to achieve actively powered walking on level ground using a simple ...
This paper presents a bipedal locomotion model for passive dynamic walking with flat feet and compli...
This paper investigates three-dimensional quasi-passive dynamic bipedal walking on level ground with...
The concept of “passive dynamic walking robot” refers to the robot that can walk down a shallow slop...
Dynamic walking approach has got its significance because of its energy efficiency in walking.\ud Wa...
This paper presents a frontal model for the limit cycle walker which consists of upper body, flat fo...
This paper presents a passive dynamic walking model with segmented feet. The model extends the Simpl...
This paper investigates three-dimensional quasipassive dynamic bipedal walking on level ground with ...
Passive dynamic walking has been developed as a possible explanation for the efficiency of the human...
This paper deals with the analysis of planar bipedal robots, based on passive dynamic walkers, which...
This thesis explores the dynamics of two bipedal, passive-walker models that are free to move in a t...
This paper studies a two-legged kneed walking robot with point feet. At any given moment, only one f...
A passive walker can walk down shallow slope. This gait, which results from the interaction between ...
To achieve high walking stability for a passive dynamic walking robot is not easy. In this article, ...