This paper is inspired by a vision of self-sufficient robot collectives that adapt autonomously to deal with their environment and to perform user-defined tasks at the same time. We introduce the MONEE algorithm as a method of combining open-ended (to deal with the environment) and task-driven (to satisfy user demands) adaptation of robot controllers through evolution. A number of experiments with simulated e-pucks serve as proof of concept and show that with MONEE, the robots adapt to cope with the environment and to perform multiple tasks. Our experiments indicate that MONEE distributes the tasks evenly over the robot collective without undue emphasis on easy tasks
International audienceThis paper is concerned with a fixed-size population of autonomous agents faci...
In this work, we introduce a swarm robotic system, called a swarm-bot. A swarm-bot is a self-assembl...
This book presented techniques and experimental results which have been pursued for the purpose of e...
Evolution can be employed for two goals. Firstly, to provide a force for adaptation to the environme...
This is an extended abstract of a recent PLoS ONE paper (Haasdijk et al., 2014) in which we introduc...
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...
The MONEE framework endows collective adaptive robotic systems with the ability to combine environme...
This paper describes a robotic system which uses evolution to continuously adapt a group of heteroge...
Building robots is a tough job because the designer has to predict the interactions between the robo...
We introduce Embodied Evolution (EE) as a new methodology for evolutionary robotics (ER). EE uses a ...
International audienceThis paper summarizes work done since 2009 on running swarm of autonomous robo...
In this paper I claim that one of the main characteristics that makes the Evolutionary Robotics appr...
This article is concerned with a fixed-size population of autonomous agents facing unknown, possibly...
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...
In this work, we introduce a swarm robotic system, called a swarm-bot. A swarm-bot is a self-assembl...
This book presented techniques and experimental results which have been pursued for the purpose of e...
Evolution can be employed for two goals. Firstly, to provide a force for adaptation to the environme...
This is an extended abstract of a recent PLoS ONE paper (Haasdijk et al., 2014) in which we introduc...
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...
The MONEE framework endows collective adaptive robotic systems with the ability to combine environme...
This paper describes a robotic system which uses evolution to continuously adapt a group of heteroge...
Building robots is a tough job because the designer has to predict the interactions between the robo...
We introduce Embodied Evolution (EE) as a new methodology for evolutionary robotics (ER). EE uses a ...
International audienceThis paper summarizes work done since 2009 on running swarm of autonomous robo...
In this paper I claim that one of the main characteristics that makes the Evolutionary Robotics appr...
This article is concerned with a fixed-size population of autonomous agents facing unknown, possibly...
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...
In this work, we introduce a swarm robotic system, called a swarm-bot. A swarm-bot is a self-assembl...
This book presented techniques and experimental results which have been pursued for the purpose of e...