Add to ORKGInternational audienceThis paper presents a preliminary study on the advantages of two bio-inspired homeostatic mechanisms in neural controllers of legged robots. We consider a robot made up of one leg of 3 dof pushing a body that is sliding on a rail with a friction force. The synthesis of the controller is done by an evolutionary algorithm which choose to attach to each synapse a particular plastic law. Four models of network incorporating or not each homeostatic law are proposed. After evolution, effectiveness of each kind of adaptive controllers is compared in term of statistics on a task of controlling the speed of the robot. The robustness to a perturbation generated by the viscous friction is analyzed in term of control. Results show...
We discuss the methodological foundations for our work on the development of cognitive architectures...
Evolutionary methods are now commonly used to automatically generate autonomous controllers for phys...
Walking animals show fascinating locomotor abilities and complex behaviors. Biological study has rev...
International audienceThis paper introduces our ongoing work consisting of evolving bio-inspired pla...
International audienceThis paper presents a study that consists to evolve neural controllers confron...
As a prerequisite for developing neural control for walking machines that are able to autonomously n...
Evolutionary robotics mainly focused on evolving neural controllers that are structurally and parame...
Sensory feedback plays an important role in adaptive control of insect leg movements as required, fo...
A network of homeostatic relaxation oscillators is evolved to produce non-rhythmic phototactic beh...
Purpose ¿ The purpose of this paper is to present an artificial homeostatic system whose parameters ...
A large space of different neural models exists from simple mathematical abstractions to detailed bi...
This paper investigates the use of a multi-objective approach for evolving artificial neural network...
Legged locomotion has not been understood well enough to build walking machines that autonomously na...
The artificial life approach to evolutionary robotics is used as a fundamental framework for the dev...
Living creatures, like walking animals, have found fascinating solutions for the problem of locomoti...
We discuss the methodological foundations for our work on the development of cognitive architectures...
Evolutionary methods are now commonly used to automatically generate autonomous controllers for phys...
Walking animals show fascinating locomotor abilities and complex behaviors. Biological study has rev...
International audienceThis paper introduces our ongoing work consisting of evolving bio-inspired pla...
International audienceThis paper presents a study that consists to evolve neural controllers confron...
As a prerequisite for developing neural control for walking machines that are able to autonomously n...
Evolutionary robotics mainly focused on evolving neural controllers that are structurally and parame...
Sensory feedback plays an important role in adaptive control of insect leg movements as required, fo...
A network of homeostatic relaxation oscillators is evolved to produce non-rhythmic phototactic beh...
Purpose ¿ The purpose of this paper is to present an artificial homeostatic system whose parameters ...
A large space of different neural models exists from simple mathematical abstractions to detailed bi...
This paper investigates the use of a multi-objective approach for evolving artificial neural network...
Legged locomotion has not been understood well enough to build walking machines that autonomously na...
The artificial life approach to evolutionary robotics is used as a fundamental framework for the dev...
Living creatures, like walking animals, have found fascinating solutions for the problem of locomoti...
We discuss the methodological foundations for our work on the development of cognitive architectures...
Evolutionary methods are now commonly used to automatically generate autonomous controllers for phys...
Walking animals show fascinating locomotor abilities and complex behaviors. Biological study has rev...