This paper introduces a new approach to develop a fast gait for quadruped robot using genetic programming (GP). Several recent approaches have focused on the genetic algorithm (GA) to generate a gait automatically and shown significant improvements over previous results. Most of current GA based approaches use pre-selected parameters, but it is difficult to select the appropriate parameters for the optimization of gait. To overcome these problems of GA based approach, we proposed an efficient approach which optimizes joint angle trajectories using genetic programming. Our GP based method has obtained much better results than GA based approaches for experiments of Sony AIBO ers-7 in Webots environment. The elite archive mechanism(EAM) was in...
This paper presents an efficient technique for a self-learning dynamic walk for a quadrupedal robot....
In this work, it is described a gait multiobjective optimization system that allows to obtain fast ...
Abstract In this work, it is described a gait multiobjective optimization system that allows to obta...
The scope of the paper is to develop a methodology for finding optimal gaits of a quadruped robot us...
Generating biped locomotion in robotic platforms is hard. It has to deal with the complexity of the ...
This article describes the development of a gait optimization system that allows a fast but stable ...
Evolutionary Computation (EC) has strengths in terms of computation for gait optimization. However, ...
It is a difficult task to generate optimal walking gaits for mobile legged robots. Generating and co...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...
This paper presents an evolutionary computation approach to generate three-dimensional fast forward ...
The purpose of the present paper is the identification of optimal trajectories of quadruped robots t...
Generating biped locomotion in robotic platforms is hard. It has to deal with the complexity of the ...
Abstract This paper describes our studies in the legged robots research area and the development of...
This paper presents an evolutionary computation approach to generate three-dimensional fast forward ...
Abstract. This paper describes our studies in the legged robots re-search area and the development o...
This paper presents an efficient technique for a self-learning dynamic walk for a quadrupedal robot....
In this work, it is described a gait multiobjective optimization system that allows to obtain fast ...
Abstract In this work, it is described a gait multiobjective optimization system that allows to obta...
The scope of the paper is to develop a methodology for finding optimal gaits of a quadruped robot us...
Generating biped locomotion in robotic platforms is hard. It has to deal with the complexity of the ...
This article describes the development of a gait optimization system that allows a fast but stable ...
Evolutionary Computation (EC) has strengths in terms of computation for gait optimization. However, ...
It is a difficult task to generate optimal walking gaits for mobile legged robots. Generating and co...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...
This paper presents an evolutionary computation approach to generate three-dimensional fast forward ...
The purpose of the present paper is the identification of optimal trajectories of quadruped robots t...
Generating biped locomotion in robotic platforms is hard. It has to deal with the complexity of the ...
Abstract This paper describes our studies in the legged robots research area and the development of...
This paper presents an evolutionary computation approach to generate three-dimensional fast forward ...
Abstract. This paper describes our studies in the legged robots re-search area and the development o...
This paper presents an efficient technique for a self-learning dynamic walk for a quadrupedal robot....
In this work, it is described a gait multiobjective optimization system that allows to obtain fast ...
Abstract In this work, it is described a gait multiobjective optimization system that allows to obta...