This thesis is concerned with building autonomous exploratory robotic controllers in an online, on-board approach, with no requirement for ground truth or human intervention in the experimental setting.This study is primarily motivated by autonomous robotics, specifically autonomous robot swarms. In this context, one faces two difficulties. Firstly, standard simulator-based approaches are hardly effective due to computational efficiency and accuracy reasons. On the one hand, the simulator accuracy is hindered by the variability of the hardware; on the other hand, this approach faces a super-linear computational complexity w.r.t. the number of robots in the swarm. Secondly, the standard goal-driven approach used for controller design does no...
Evolutionary Robotics provide efficient tools and approach to address automatic design of controller...
Evolutionary Robotics provide efficient tools and approach to address automatic design of controller...
Evolutionary Robotics provide efficient tools and approach to address automatic design of controller...
This thesis is concerned with building autonomous exploratory robotic controllers in an online, on-b...
International audienceThis paper investigates a hybrid two-phase approach toward exploratory behavio...
International audienceThis paper reports on a feasibility study into the evolution of robot controll...
We review recent experiments in evolutionary robotics carried out in dynamic environments and across...
Artificial evolution plays an important role in several robotics projects. Most commonly, an evolutio...
Online evolution of behavioural control on real robots is an open-ended approach to autonomous learn...
This paper deals with online onboard behavior optimization for a autonomous mobile robot in the scop...
Robot swarms are systems composed of a large number of rather simple robots. Due to the large number...
After reviewing current approaches in Evolutionary Robotics, we point to directions of research that...
International audienceThis paper is concerned with designing self-driven fitness functions for Embed...
Evolutionary Robotics provide efficient tools and approach to address automatic design of controller...
Evolutionary Robotics provide efficient tools and approach to address automatic design of controller...
Evolutionary Robotics provide efficient tools and approach to address automatic design of controller...
This thesis is concerned with building autonomous exploratory robotic controllers in an online, on-b...
International audienceThis paper investigates a hybrid two-phase approach toward exploratory behavio...
International audienceThis paper reports on a feasibility study into the evolution of robot controll...
We review recent experiments in evolutionary robotics carried out in dynamic environments and across...
Artificial evolution plays an important role in several robotics projects. Most commonly, an evolutio...
Online evolution of behavioural control on real robots is an open-ended approach to autonomous learn...
This paper deals with online onboard behavior optimization for a autonomous mobile robot in the scop...
Robot swarms are systems composed of a large number of rather simple robots. Due to the large number...
After reviewing current approaches in Evolutionary Robotics, we point to directions of research that...
International audienceThis paper is concerned with designing self-driven fitness functions for Embed...
Evolutionary Robotics provide efficient tools and approach to address automatic design of controller...
Evolutionary Robotics provide efficient tools and approach to address automatic design of controller...
Evolutionary Robotics provide efficient tools and approach to address automatic design of controller...