This paper investigates three-dimensional quasipassive dynamic bipedal walking on level ground with flat feet and compliant ankles.We present pointmass dynamic models to analyze and tune the characteristics of the bipedal gait.Simulations are carried out to study the effects of flat feet and ankle stiffness on the stability in both sagittal plane and frontal plane.Based on the theoretical analysis,we construct a robot prototype driven by hip actuation.The implementing of flat feet and coordination of ankle complex allow the prototype to walk on natural ground.This paper investigates three-dimensional quasipassive dynamic bipedal walking on level ground with flat feet and compliant ankles.We present pointmass dynamic models to analyze and tu...
Passive dynamic walking has been developed as a possible explanation for the efficiency of the human...
This paper presents a seven-link dynamic walking model that is more close to human beings than other...
Bipedal robotic locomotion based on passive dynamics is a field that has been extensively researched...
This paper investigates three-dimensional quasi-passive dynamic bipedal walking on level ground with...
This paper presents a bipedal locomotion model for passive dynamic walking with flat feet and compli...
The concept of “passive dynamic walking robot” refers to the robot that can walk down a shallow slop...
One of the main challenges in the design of human-like walking robots (useful for service or enterta...
To achieve high walking stability for a passive dynamic walking robot is not easy. In this article, ...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
This paper deals with the analysis of planar bipedal robots, based on passive dynamic walkers, which...
Currently, many bipedal robots have been proposed to realize the high energy efficiency walking. The...
Stable bipedal walking is one of the most important components of humanoid robot design, which can h...
Passive dynamic walkers exhibit stable human-like walking on inclined planes. The simplest model of ...
This paper presents a frontal model for the limit cycle walker which consists of upper body, flat fo...
This paper investigates the effects of ankle joint stiffness on gait selection of dynamic bipedal wa...
Passive dynamic walking has been developed as a possible explanation for the efficiency of the human...
This paper presents a seven-link dynamic walking model that is more close to human beings than other...
Bipedal robotic locomotion based on passive dynamics is a field that has been extensively researched...
This paper investigates three-dimensional quasi-passive dynamic bipedal walking on level ground with...
This paper presents a bipedal locomotion model for passive dynamic walking with flat feet and compli...
The concept of “passive dynamic walking robot” refers to the robot that can walk down a shallow slop...
One of the main challenges in the design of human-like walking robots (useful for service or enterta...
To achieve high walking stability for a passive dynamic walking robot is not easy. In this article, ...
This paper presents an approach for passivity-based bipedal robots to achieve stable walking on unev...
This paper deals with the analysis of planar bipedal robots, based on passive dynamic walkers, which...
Currently, many bipedal robots have been proposed to realize the high energy efficiency walking. The...
Stable bipedal walking is one of the most important components of humanoid robot design, which can h...
Passive dynamic walkers exhibit stable human-like walking on inclined planes. The simplest model of ...
This paper presents a frontal model for the limit cycle walker which consists of upper body, flat fo...
This paper investigates the effects of ankle joint stiffness on gait selection of dynamic bipedal wa...
Passive dynamic walking has been developed as a possible explanation for the efficiency of the human...
This paper presents a seven-link dynamic walking model that is more close to human beings than other...
Bipedal robotic locomotion based on passive dynamics is a field that has been extensively researched...