[Comp-neuro] IEEE CEC 2010 - Special Session on "Evolutionary Robotics" - EXTENDED DEADLINE

Steffen Wischmann steffen.wischmann at unil.ch
Thu Jan 28 16:32:03 CET 2010

IEEE CEC 2010 - Special Session on "Evolutionary Robotics"
Barcelona, Spain, 18th-23rd of July, 2010


*** DEADLINE EXTENDED TO 07th of February


Patricia A. Vargas (Heriot-Watt University)
Steffen Wischmann (EPFL - Lausanne)
Dario Floreano (EPFL - Lausanne)
Phil Husbands (University of Sussex)

WEBSITE: http://lis.epfl.ch/specialsessions/CEC10/

Evolutionary Robotics (ER) aims to apply evolutionary computation 
techniques, inspired by darwinian selection, to automatically design the 
control and/or hardware of both real and simulated autonomous robots.

Having an intrinsic interdisciplinary character, ER is being employed 
towards the development of many fields of research, among which we can 
highlight neuroscience, cognitive science, evolutionary biology and 
robotics. Hence the objective of this special session is to assemble a 
set of high-quality original contributions that reflect and advance the 
state-of-the-art in the area of Evolutionary Robotics, with an emphasis 
on the cross-fertilization between ER and the aforementioned research 
areas, ranging from theoretical analysis to real-life applications.


Depending on the quality of the submissions, authors will be asked to 
contribute to a journal special issue on the topic of "Evolutionary 


Submissions should follow the guidance given on the main conference 
website for the IEEE CEC 2010 conference.: 
http://www.wcci2010.org/submission. When submitting, please select as 
the main research topic the Special Session on “Evolutionary Robotics” 

All submissions will be peer-reviewed with the same criteria used for 
other contributed papers. All accepted papers will be included and 
published in the conference proceedings.

TOPICS OF INTEREST INCLUDE (but are not restricted to):

. Evolution of robots which display minimal cognitive behaviour, 
learning, memory, spatial cognition, adaptation or homeostasis.
. Evolution of neural controllers for robots, aimed at giving an insight 
to neuroscientists or advancing control structures.
. Evolution of communication, cooperation and competition, using robots 
as a research platform.
. Co-evolution and the evolution of collective behaviour.
. Evolution of morphology in close interaction with the environment, 
giving rise to self-reconfigurable, self-designing, self-healing and 
self-reproducing robots.
. Evolution of robot systems aimed at real-world applications as in 
aerial robotics, space exploration, industry, search and rescue, robot 
companions, entertainment and games.
. Evolution of controllers on board real robots or the real time 
evolution of robot hardware.
. Novel or improved algorithms for the evolution or robot systems.
. The use of evolution for the artistic exploration of robot design.


NEW Paper Submission: February 07, 2010
Notification of Acceptance: March 15, 2010
Camera-Ready Submission: May 2, 2010


Dr. Patricia A. Vargas
School of Maths and Computer Science
Heriot-Watt University
Edinburgh, Scotland
EH14 4AS, United Kingdom
p.a.vargas at hw.ac.uk

Dr. Steffen Wischmann
Laboratory of Intelligent Systems
Ecole Polytechnique Fédérale de Lausanne (EPFL)
EPFL-STI-IMT-LIS, Station 11, Lausanne
CH-1015, Switzerland
steffen.wischmann at epfl.ch

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