International audienceThis paper is concerned with a fixed-size population of autonomous agents facing unknown, possibly changing, environments. The motivation is to design an embodied evolutionary algorithm that can cope with the implicit fitness function hidden in the environment so as to provide adaptation in the long run at the level of the population. The resulting algorithm, termed Minimal Environment-driven Distributed Evolutionary Adaptation (mEDEA), is shown to be both efficient in unknown environment and robust with regards to abrupt, unpredicted, and possibly lethal changes in the environment
Digital Object Identifier: 10.1177/1059712310397633In this article we propose a framework for perfor...
International audienceThis paper is concerned with designing self-driven fitness functions for Embed...
We introduce Embodied Evolution (EE) as a methodology for the automatic design of robotic controller...
International audienceThis paper is concerned with a fixed-size population of autonomous agents faci...
International audienceThis paper is concerned with a fixed-size population of autonomous agents faci...
This article is concerned with a fixed-size population of autonomous agents facing unknown, possibly...
International audienceThis paper summarizes work done since 2009 on running swarm of autonomous robo...
International audienceThis paper summarizes recent works on the evolution of altruism to solve the t...
Artificial evolution plays an important role in several robotics projects. Most commonly, an evolutio...
This thesis investigates several aspects of environment-driven adaptation in simulated evolutionary ...
We introduce Embodied Evolution (EE) as a new methodology for evolutionary robotics (ER). EE uses a ...
Embodied evolutionary robotics is a sub-field of evolutionary robotics that employs evolutionary alg...
Embodied evolutionary robotics is a sub-field of evolutionary robotics that employs evolutionary alg...
In this paper we describe and evaluate a fully distributed P2P evo-lutionary algorithm (EA) with ada...
This article is posted here with permission of IEEE - Copyright @ 2008 IEEEIn this paper, a multi-ag...
Digital Object Identifier: 10.1177/1059712310397633In this article we propose a framework for perfor...
International audienceThis paper is concerned with designing self-driven fitness functions for Embed...
We introduce Embodied Evolution (EE) as a methodology for the automatic design of robotic controller...
International audienceThis paper is concerned with a fixed-size population of autonomous agents faci...
International audienceThis paper is concerned with a fixed-size population of autonomous agents faci...
This article is concerned with a fixed-size population of autonomous agents facing unknown, possibly...
International audienceThis paper summarizes work done since 2009 on running swarm of autonomous robo...
International audienceThis paper summarizes recent works on the evolution of altruism to solve the t...
Artificial evolution plays an important role in several robotics projects. Most commonly, an evolutio...
This thesis investigates several aspects of environment-driven adaptation in simulated evolutionary ...
We introduce Embodied Evolution (EE) as a new methodology for evolutionary robotics (ER). EE uses a ...
Embodied evolutionary robotics is a sub-field of evolutionary robotics that employs evolutionary alg...
Embodied evolutionary robotics is a sub-field of evolutionary robotics that employs evolutionary alg...
In this paper we describe and evaluate a fully distributed P2P evo-lutionary algorithm (EA) with ada...
This article is posted here with permission of IEEE - Copyright @ 2008 IEEEIn this paper, a multi-ag...
Digital Object Identifier: 10.1177/1059712310397633In this article we propose a framework for perfor...
International audienceThis paper is concerned with designing self-driven fitness functions for Embed...
We introduce Embodied Evolution (EE) as a methodology for the automatic design of robotic controller...