Add to ORKGThis paper discussed on evaluation and validation of method in order to generate the moving motion control system of the developed tripod hopping robot. The proposed method to control the system is designed by using MATLAB&Simulink which consist of reference height control system and the networks of Central Pattern Generator (CPG) that can controlled the hopping height of each leg independently. By using this method, one of the legs of the tripod hopping robot is set to different value than the other leg in order to make the posture of hopping robot’s body incline ahead towards to the direction which it should move, respectively. As the result, the effectiveness of the approached method to generate moving motion of the...
In this paper a new kind of hopping robot has been designed which uses inverse pendulum dynamics to ...
In this paper a new kind of hopping robot has been designed which uses inverse pendulum dynamics to ...
The paper presents two-mass inverted pendulum (TMIP) model and its control scheme for hopping robot....
In this paper, the generation of vertical jumping motion for tripod hopping robot through reference ...
This paper describes the moving control using the adaptive Central Pattern Generators (CPGs) includi...
In this paper, the generation of brake motion control for our developed quadruped hopping robot whil...
In this paper, we discuss on the validity of using infrared ranging sensor instead of using ultrason...
Central Pattern Generator(CPG) algorithm enables to produce rhythmic patterned outputs where this ne...
In this paper, the collaboration of CPG networks with the feedback control system which are composed...
In this paper, we discuss on the generation of moving control for our developed quadruped hopping ro...
In this paper, the collaboration of CPG networks with the feedback control system which are composed...
Hopping movement is a desirable locomotion for a mobile robot to adapt on unknown surface and overco...
This paper presents vertical motion control of a one-legged hopping robot using Central Pattern Gene...
The paper presents the validity of using Central Pattern Generator (CPG) model to develop one leg ...
This paper presents the hopping peak height algorithm in controlling the hopping height of a one leg...
In this paper a new kind of hopping robot has been designed which uses inverse pendulum dynamics to ...
In this paper a new kind of hopping robot has been designed which uses inverse pendulum dynamics to ...
The paper presents two-mass inverted pendulum (TMIP) model and its control scheme for hopping robot....
In this paper, the generation of vertical jumping motion for tripod hopping robot through reference ...
This paper describes the moving control using the adaptive Central Pattern Generators (CPGs) includi...
In this paper, the generation of brake motion control for our developed quadruped hopping robot whil...
In this paper, we discuss on the validity of using infrared ranging sensor instead of using ultrason...
Central Pattern Generator(CPG) algorithm enables to produce rhythmic patterned outputs where this ne...
In this paper, the collaboration of CPG networks with the feedback control system which are composed...
In this paper, we discuss on the generation of moving control for our developed quadruped hopping ro...
In this paper, the collaboration of CPG networks with the feedback control system which are composed...
Hopping movement is a desirable locomotion for a mobile robot to adapt on unknown surface and overco...
This paper presents vertical motion control of a one-legged hopping robot using Central Pattern Gene...
The paper presents the validity of using Central Pattern Generator (CPG) model to develop one leg ...
This paper presents the hopping peak height algorithm in controlling the hopping height of a one leg...
In this paper a new kind of hopping robot has been designed which uses inverse pendulum dynamics to ...
In this paper a new kind of hopping robot has been designed which uses inverse pendulum dynamics to ...
The paper presents two-mass inverted pendulum (TMIP) model and its control scheme for hopping robot....