We introduce Embodied Evolution (EE) as a new methodology for evolutionary robotics (ER). EE uses a population of physical robots that autonomously reproduce with one another while situated in their task environment. This constitutes a fully distributed evolutionary algorithm embodied in physical robots. Several issues identified by researchers in the evolutionary robotics community as problematic for the development of ER are alleviated by the use of a large number of robots being evaluated in parallel. Particularly, EE avoids the pitfalls of the simulate-and-transfer method and allows the speed-up of evaluation time by utilizing parallelism. The more novel features of EE are that the evolutionary algorithm is entirely decentralized, which...
We review recent experiments in evolutionary robotics carried out in dynamic environments and across...
This article is concerned with a fixed-size population of autonomous agents facing unknown, possibly...
It is considered a difficult task to design a controller from scratch for a robot in a dynamic envir...
We introduce Embodied Evolution (EE) as a methodology for the automatic design of robotic controller...
Introduction The vision of a population of robots evolving autonomously, articulated by Harvey, 199...
This article provides an overview of evolutionary robotics techniques applied to online distributed ...
iii Embodied evolution is a methodology for evolutionary robotics that mimics the distributed, async...
Evolutionary robotics is a technique that aims to create controllers and sometimes morphologies for ...
Abstract. In this paper, an embodied evolutionary system, able to con-trol a population of mobile ro...
This book presented techniques and experimental results which have been pursued for the purpose of e...
This paper presents a proof of concept demonstration of a novel evolutionary robotic system where ro...
Artificial evolution plays an important role in several robotics projects. Most commonly, an evolutio...
Digital Object Identifier: 10.1177/1059712310397633In this article we propose a framework for perfor...
International audienceEvolutionary robotics applies the selection, variation, and heredity principle...
We provide an overview of the evolutionary approach to the emergence of artificial intelligence in e...
We review recent experiments in evolutionary robotics carried out in dynamic environments and across...
This article is concerned with a fixed-size population of autonomous agents facing unknown, possibly...
It is considered a difficult task to design a controller from scratch for a robot in a dynamic envir...
We introduce Embodied Evolution (EE) as a methodology for the automatic design of robotic controller...
Introduction The vision of a population of robots evolving autonomously, articulated by Harvey, 199...
This article provides an overview of evolutionary robotics techniques applied to online distributed ...
iii Embodied evolution is a methodology for evolutionary robotics that mimics the distributed, async...
Evolutionary robotics is a technique that aims to create controllers and sometimes morphologies for ...
Abstract. In this paper, an embodied evolutionary system, able to con-trol a population of mobile ro...
This book presented techniques and experimental results which have been pursued for the purpose of e...
This paper presents a proof of concept demonstration of a novel evolutionary robotic system where ro...
Artificial evolution plays an important role in several robotics projects. Most commonly, an evolutio...
Digital Object Identifier: 10.1177/1059712310397633In this article we propose a framework for perfor...
International audienceEvolutionary robotics applies the selection, variation, and heredity principle...
We provide an overview of the evolutionary approach to the emergence of artificial intelligence in e...
We review recent experiments in evolutionary robotics carried out in dynamic environments and across...
This article is concerned with a fixed-size population of autonomous agents facing unknown, possibly...
It is considered a difficult task to design a controller from scratch for a robot in a dynamic envir...