For a quadruped robot to implement steady moving on horizontal planes, avoiding the impact against the ground, a foot trajectory planning method underling low contact impact was presented. At first, kinematic model of the quadruped robot though D-H algorithm have been established. Then, the foot trajectories, which are continuous not only in displacements and velocities but also in accelerations, was scheduled based on the walking gait. Lastly, the steering and straight line movements of the robot were simulated, simulation experiments show that the quadruped robot motion stably on horizontal planes without impact and sliding
Planning whole-body motions while taking into account the terrain conditions is a challenging proble...
This paper reports the algorithm of trajectory planning and the strategy of four-leg coordination fo...
In order to make a robot track a desired trajectory with high precision and steady gait, a novel int...
For a quadruped robot to implement steady moving on horizontal planes, avoiding the impact against t...
In this paper, a single leg platform for quadruped robots is designed based on the motivation of hig...
This article discusses a generalized method to produce stan-dard foot trajectories for a quadruped w...
To meet the stability requirements for moving quadruped robots, it is important to design a rational...
This paper presents a combination of transverse and trot walking pattern technique for hexa-quad rob...
In this study, we discuss omni-directional walking of a quadruped robot to walk on a slope. A method...
Generating a robust gait is one of the most important factors to improve the adaptability of quadrup...
This paper presents a new Center of Gravity (COG) trajectory planning algorithm for a quadruped robo...
We describe the design and construction of a quadruped robot which walks on uneven terrain. A contro...
Numerical model of quadruped robot traversing with bounding gait is used for analysis of its stabili...
As the main testbed platform of Artificial Intelligence, the robot plays an essential role in creati...
In order to effectively plan the robot gaits and foot workspace trajectory (WT) synchronously, a nov...
Planning whole-body motions while taking into account the terrain conditions is a challenging proble...
This paper reports the algorithm of trajectory planning and the strategy of four-leg coordination fo...
In order to make a robot track a desired trajectory with high precision and steady gait, a novel int...
For a quadruped robot to implement steady moving on horizontal planes, avoiding the impact against t...
In this paper, a single leg platform for quadruped robots is designed based on the motivation of hig...
This article discusses a generalized method to produce stan-dard foot trajectories for a quadruped w...
To meet the stability requirements for moving quadruped robots, it is important to design a rational...
This paper presents a combination of transverse and trot walking pattern technique for hexa-quad rob...
In this study, we discuss omni-directional walking of a quadruped robot to walk on a slope. A method...
Generating a robust gait is one of the most important factors to improve the adaptability of quadrup...
This paper presents a new Center of Gravity (COG) trajectory planning algorithm for a quadruped robo...
We describe the design and construction of a quadruped robot which walks on uneven terrain. A contro...
Numerical model of quadruped robot traversing with bounding gait is used for analysis of its stabili...
As the main testbed platform of Artificial Intelligence, the robot plays an essential role in creati...
In order to effectively plan the robot gaits and foot workspace trajectory (WT) synchronously, a nov...
Planning whole-body motions while taking into account the terrain conditions is a challenging proble...
This paper reports the algorithm of trajectory planning and the strategy of four-leg coordination fo...
In order to make a robot track a desired trajectory with high precision and steady gait, a novel int...