It is a difficult task to generate optimal walking gaits for mobile legged robots. Generating and coordinating an optimal gait involves continually repeating a series of actions in order to create a sustained movement. In this work, we present the use of a Cyclic Genetic Algorithm (CGA) to learn near optimal gaits for an actual quadruped servo-robot with three degrees of movement per leg. This robot was used to create a simulation model of the movement and states of the robot which included the robot’s unique features and capabilities. The CGA used this model to learn gaits that were optimized for this particular robot. Tests done in simulation show the success of the CGA in evolving gait control programs and tests on robot show that these ...
In this work, it is described a gait multiobjective optimization system that allows to obtain fast ...
Master of ScienceDepartment of Computer ScienceWilliam H. HsuDetermining efficient gaits and walk-cy...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...
Generating walking gaits for legged robots is a challenging task. Gait generation with proper leg co...
This article describes the development of a gait optimization system that allows a fast but stable ...
It has been shown that the use of Cyclic Genetic Algorithms can be an effective means of gait genera...
The scope of the paper is to develop a methodology for finding optimal gaits of a quadruped robot us...
This paper introduces a new approach to develop a fast gait for quadruped robot using genetic progra...
The aim of this dissertation is to show that dynamic control of quadruped locomotion is achievable t...
This paper describes the staged evolution of a complex motor pattern generator (CPG) for the control...
The problem of tuning nonlinear dynamical systems parameters, such that the attained results are con...
This paper presents an efficient technique for a self-learning dynamic walk for a quadrupedal robot....
In the design and development of a legged robot, many factors need to be considered. As a consequenc...
Different strategies have been adopted for the optimization of legged robots, either during their de...
Evolutionary Computation (EC) has strengths in terms of computation for gait optimization. However, ...
In this work, it is described a gait multiobjective optimization system that allows to obtain fast ...
Master of ScienceDepartment of Computer ScienceWilliam H. HsuDetermining efficient gaits and walk-cy...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...
Generating walking gaits for legged robots is a challenging task. Gait generation with proper leg co...
This article describes the development of a gait optimization system that allows a fast but stable ...
It has been shown that the use of Cyclic Genetic Algorithms can be an effective means of gait genera...
The scope of the paper is to develop a methodology for finding optimal gaits of a quadruped robot us...
This paper introduces a new approach to develop a fast gait for quadruped robot using genetic progra...
The aim of this dissertation is to show that dynamic control of quadruped locomotion is achievable t...
This paper describes the staged evolution of a complex motor pattern generator (CPG) for the control...
The problem of tuning nonlinear dynamical systems parameters, such that the attained results are con...
This paper presents an efficient technique for a self-learning dynamic walk for a quadrupedal robot....
In the design and development of a legged robot, many factors need to be considered. As a consequenc...
Different strategies have been adopted for the optimization of legged robots, either during their de...
Evolutionary Computation (EC) has strengths in terms of computation for gait optimization. However, ...
In this work, it is described a gait multiobjective optimization system that allows to obtain fast ...
Master of ScienceDepartment of Computer ScienceWilliam H. HsuDetermining efficient gaits and walk-cy...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...