Dynamic-stability criteria are crucial for robot’s motion planning and balance recovery. Nevertheless, few studies focus on the motion stability of quadruped robots with dynamic gait, none of which have accurately evaluated the robots’ stability. To fill the gaps in this field, this paper presents a new stability criterion for the motion of quadruped robots with dynamic gaits running over irregular terrain. The traditional zero-moment point (ZMP) is improved to analyze the motion on irregular terrain precisely for dynamic gaits. A dynamic-stability criterion and measurement are proposed to determine the stability state of the robot and to evaluate its stability. The simulation results show the limitations of the existing stabili...
Legged robots stand out with their maneuverability and terrain adaptability potential owing to their...
Generating a robust gait is one of the most important factors to improve the adaptability of quadrup...
Achieving stable bipedal robotic walking on deformable terrain is an open and challenging problem at...
www.iai.csic.es/users/egarcia Quadrupedal robots working outdoors are very slow robots prone to tum-...
Numerical model of quadruped robot traversing with bounding gait is used for analysis of its stabili...
Dynamic stability allows running animals to maintain preferred speed during locomotion over rough te...
Up to now, walking robots have been working outdoors under favorable conditions and using very large...
In this paper, we propose a stabilization method for dynamic gaits of quadrupedal walking robots cov...
This paper proposed a control algorithm that guarantees gait tracking performance for quadruped robo...
Throughout the history of walking robots several static and dynamic stability criteria have been def...
The ability of the quadruped (four-legged) robot locomotion was used in a lot of different applicati...
Fundamental principles and recent methods for investigating the nonlinear dynamics of legged robot m...
This paper describes the study of algorithms to obtain static or marginally static gaits. Some of th...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Cata...
Legged locomotion is preferred over the wheeled locomotion as it can be used both for flat and rough...
Legged robots stand out with their maneuverability and terrain adaptability potential owing to their...
Generating a robust gait is one of the most important factors to improve the adaptability of quadrup...
Achieving stable bipedal robotic walking on deformable terrain is an open and challenging problem at...
www.iai.csic.es/users/egarcia Quadrupedal robots working outdoors are very slow robots prone to tum-...
Numerical model of quadruped robot traversing with bounding gait is used for analysis of its stabili...
Dynamic stability allows running animals to maintain preferred speed during locomotion over rough te...
Up to now, walking robots have been working outdoors under favorable conditions and using very large...
In this paper, we propose a stabilization method for dynamic gaits of quadrupedal walking robots cov...
This paper proposed a control algorithm that guarantees gait tracking performance for quadruped robo...
Throughout the history of walking robots several static and dynamic stability criteria have been def...
The ability of the quadruped (four-legged) robot locomotion was used in a lot of different applicati...
Fundamental principles and recent methods for investigating the nonlinear dynamics of legged robot m...
This paper describes the study of algorithms to obtain static or marginally static gaits. Some of th...
Thesis: S.M., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2016.Cata...
Legged locomotion is preferred over the wheeled locomotion as it can be used both for flat and rough...
Legged robots stand out with their maneuverability and terrain adaptability potential owing to their...
Generating a robust gait is one of the most important factors to improve the adaptability of quadrup...
Achieving stable bipedal robotic walking on deformable terrain is an open and challenging problem at...