This article describes the development of a gait optimization system that allows a fast but stable robot quadruped crawl gait. We focus in the development of a quadruped robot walking gait locomotion that combine bio-inspired Central Patterns Generators (CPGs) and Genetic Algorithms (GA). The CPGs are modelled as autonomous differential equations, that generate the necessary limb movement to perform the walking gait, and the Genetic Algorithm perform the search of the CPGs parameters. This approach allows to explicitly specify parameters such as amplitude, offset and frequency of movement and to smoothly modulate the generated trajectories according to changes in these parameters. It is therefore easy to combine the CPG with an o...
The aim of this dissertation is to show that dynamic control of quadruped locomotion is achievable t...
This paper presents an efficient technique for a self-learning dynamic walk for a quadrupedal robot....
Different strategies have been adopted for the optimization of legged robots, either during their de...
The problem of tuning nonlinear dynamical systems parameters, such that the attained results are con...
In this work, it is described a gait multiobjective optimization system that allows to obtain fast ...
The scope of the paper is to develop a methodology for finding optimal gaits of a quadruped robot us...
This paper presents a gait multi-objective optimization system that combines bio-inspired Central P...
It is a difficult task to generate optimal walking gaits for mobile legged robots. Generating and co...
Abstract In this work, it is described a gait multiobjective optimization system that allows to obta...
Generating walking gaits for legged robots is a challenging task. Gait generation with proper leg co...
This paper introduces a new approach to develop a fast gait for quadruped robot using genetic progra...
The purpose of the present paper is the identification of optimal trajectories of quadruped robots t...
Evolutionary Computation (EC) has strengths in terms of computation for gait optimization. However, ...
Legged robots allow the locomotion on terrains inaccessible to other type of vehicles because they d...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...
The aim of this dissertation is to show that dynamic control of quadruped locomotion is achievable t...
This paper presents an efficient technique for a self-learning dynamic walk for a quadrupedal robot....
Different strategies have been adopted for the optimization of legged robots, either during their de...
The problem of tuning nonlinear dynamical systems parameters, such that the attained results are con...
In this work, it is described a gait multiobjective optimization system that allows to obtain fast ...
The scope of the paper is to develop a methodology for finding optimal gaits of a quadruped robot us...
This paper presents a gait multi-objective optimization system that combines bio-inspired Central P...
It is a difficult task to generate optimal walking gaits for mobile legged robots. Generating and co...
Abstract In this work, it is described a gait multiobjective optimization system that allows to obta...
Generating walking gaits for legged robots is a challenging task. Gait generation with proper leg co...
This paper introduces a new approach to develop a fast gait for quadruped robot using genetic progra...
The purpose of the present paper is the identification of optimal trajectories of quadruped robots t...
Evolutionary Computation (EC) has strengths in terms of computation for gait optimization. However, ...
Legged robots allow the locomotion on terrains inaccessible to other type of vehicles because they d...
This paper presents a novel evolutionary computation approach to optimize fast forward gaits for a q...
The aim of this dissertation is to show that dynamic control of quadruped locomotion is achievable t...
This paper presents an efficient technique for a self-learning dynamic walk for a quadrupedal robot....
Different strategies have been adopted for the optimization of legged robots, either during their de...