6533b837fe1ef96bd12a1e7b
RESEARCH PRODUCT
On the coupling between agent internal and agent/ environmental dynamics: Development of spatial representations in evolving autonomous robots
Stefano NolfiOnofrio Gigliottasubject
Transient dynamiceducation.field_of_studyExploitComputer scienceEvolutionDistributed computingPopulationExperimental and Cognitive Psychologydynamical systemsComputer Science::RoboticsBehavioral Neurosciencerobot navigationCoupling (computer programming)Simple (abstract algebra)Limit cycleAttractorRobotTransient (computer programming)educationadaptive behaviorSimulationSpatial representationdescription
In this article we describe how a population of evolving robots can autonomously develop forms of spatial representation which allow them to self-localize and to discriminate different locations of their environment by integrating sensory-motor information over time. The evolving robots also display a remarkable ability to generalize their skill in new environmental conditions that they have never experienced before. The analysis of the obtained results indicates that the evolved robots come up with simple and robust solutions that exploit quasi-periodic limit cycle dynamics emerging from the coupling between the robot/environmental dynamics and a robot's internal dynamics. More specifically, the variations of a robot's internal states are governed by transient dynamical processes originating from the fact that these internal states tend to slowly approximate fixed attractor points, corresponding to different types of sensory states that last for a limited time duration and alternate while the robot moves in the environment.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2008-04-01 |