2015 IEEE International Conference
on Evolvable Systems (ICES)
From Biology to Hardware (and back!)
December 7 to 10, 2015, Cape Town, South Africa
Important Dates
- Paper Submission - June 14, 2015
- Special Session Proposal - June 14, 2015
- Tutorial Proposal - June 14, 2015
- Notification of Authors - September 4, 2015
- Final Submission - October 4, 2015
- Early Registration - October 4, 2015
The IEEE International Conference on Evolvable Systems (IEEE ICES) has been held, uninterrupted, since 1995 and in 2013 evolved from ICES to IEEE ICES. Following on from the success in 2013 & 2014, ICES will continue to be part of the successful IEEE Symposium Series on Computational Intelligence, providing the possibility for increased interaction between ICES and the other symposiums and workshops.
Evolvable systems encompass understanding, modelling and application of biologically inspired mechanisms to physical systems. Application areas for bio-inspired algorithms include the creation of novel physical devices/systems, novel or optimised designs for physical systems and for the achievement of adaptive physical systems. Having showcased examples from analogue and digital electronics, antennas, MEMS chips, optical systems as well as quantum circuits in the past, the IEEE ICES has become the leading conference for showcasing techniques and applications of evolvable systems.
SSCI 2015 Call for Papers (to follow!)
IEEE SSCI 2015 Conference Homepage
Topics include but are not limited to:
Evolvable Systems Techniques:
- Intrinsic/Extrinsic/Mixtrinsic Evolution
- On-chip Bio-inspired Approaches
- Autonomous Systems
- Self-reconfigurable and Adaptive Systems
- Novel Evolvable Hardware Architectures (e.g. FPGAs, FPAAs)
- Self-repairing, Fault-tolerant Systems
- Self-monitoring and Self-testing
- Electronic Circuit Synthesis and Optimization
- Artificial Immune Systems
- Artificial Generative Development
- Formal Hardware Models
- Bio-inspired Modeling
Evolvable Systems Applications:
- Intrinsic Fault-tolerance
- Sensor Design
- Antenna Design
- Hardware System Optimization
- Analogue & Digital Electronic Design Optimization (Topology & Parameters)
- Evolutionary Robotics
- Autonomic and Organic Computing
- DNA Computing
- MEMS and Nanotechnology
- Quantum Computing
- Machine Vision
- Medical Diagnosis
- Mechanical Design Optimization (Bridges, Buildings, Spacecraft, Machines, Lenses, Solar Cells)
Special Sessions
Evolutionary Systems for Semiconductor Design, Simulation and Fabrication
Over the past 30 years, electronic devices have rapidly improved in performance and function density enabled by smart design and fabrication techniques that have allowed the continuous shrinking of technology sizes (Moores Law). However, with these advances new problems have appeared. Intrinsic device variations become prevalent and fabrication yields decrease; the complexity of designs make standard design and test procedures less effective; the unreliability of fundamental components means designs have to take this into account for their final implementations etc.
Fundamental components of electronics systems need to be produced within this complex, unreliable, ever changing environment. Evolutionary methods have been shown to provide novel and competitive results within this field.
This Special Session focuses on how evolutionary systems can assist with these fundamental issues. It covers a diverse range of research areas, including but not limited to: device modeling, fabrication and measurement; place and route schemes; implementations with potential reconfigurable options to alleviate post-fabrication issues; fault-tolerant implementations. These might be applied to digital, analogue or mixed-signal systems.
The special session is organized by (please email for further information):
Andy Tyrrell, Department of Electronics, University of York, UK, Email: andy.tyrrell@york.ac.uk
Evolutionary Robotics
Evolutionary Robotics (ER) targets to apply evolutionary computation algorithms to automatically design the control and/or mechanical body of both real and simulated autonomous robots.
Topics of interest for the Evolutionary Robotics special session include (but are not restricted to):
- Evolution of robot learning and adaptation.
- Evolution of communication, cooperation and competition between robots.
- Co-evolution of robot morphology and robot control giving rise to self-designing, self-reconfigurable, self-repairing 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 while being in operation.
- The use of evolution for artistic exploration including robots.
- Evolution applied to shrink the reality-gap between simulation and real performance of robots.
The special session is organized by (please email for further information):
Jim Torresen, University of Oslo, Norway, Email: jimtoer@ifi.uio.no
Bio-inspired Computation for the Engineering of Materials and Physical Devices
Bio-inspired algorithms have been widely used in the design and optimization of physical systems. The aim of the special session is to bring together a wide variety of researchers who use bio-inspired algorithms or principles to engineer or optimize physical systems. We define physical systems in its widest sense to include chemical, biological, neural, material, electrical systems.
Many of these researchers are facing similar problems in their particular systems and the workshop aims to bring these people together to share experiences and to allow exchange of ideas and techniques.
Typical systems can include but are not limited to: MEMS, antennas, molecular devices, materials and material composites, chemical structures, microwave devices, optical devices, rocket propulsion systems, 3D printed systems and devices, sensors, acoustics devices, optics, solar cells, spacecraft, textiles, renewable energy systems, transportation systems, motors, mobile phones.
The special session is organized by (please email for further information):
Julian Miller, Department of Electronics, University of York, UK, Email: julian.miller@york.ac.uk, and
Pauline Haddow, Department of Computer and Information Science, Norwegian University of Science and Technology (NTNU), Trondheim, Norway, Email: pauline@idi.ntnu.no.
Please forward your special session proposals to Conference Co-Chairs.
Conference Co-Chairs
Andy M Tyrrell (andy.tyrrell@york.ac.uk)
Martin A Trefzer (martin.trefzer@york.ac.uk)
Provisional Program Committee
Andrew Adamatzky, University of the West of England, UK
Simon Bale, University of York, UK
Peter Bentley, University College London, UK
Michal Bidlo, Brno University of Technology, Czech Republic
Stefano Cagnoni, University of Parma, Italy
Rolf Drechsler, University of Bremen, Germany
R. Tim Edwards, Multigig Inc., USA
Gusz Eiben, University of Amsterdam, The Netherlands
Stuart J. Flockton, Royal Holloway, University of London, UK
John Gallagher, Wright State University, USA
Kyrre Glette, University of Oslo, Norway
Garrison Greenwood, Portland State University, USA
Pauline C Haddow, NTNU, Norway
David M. Halliday, University of York, UK
James Hereford, Murray State University, USA
Arturo Hernandez-Aguirre, Centro de Investigacion en Matematicas, Mexico
Peter Jamieson, Miami University, USA
Tatiana Kalganova, Brunel University, UK
Paul Kaufmann, University of Paderborn, Germany
Krzystof Kepa, National University of Ireland, Ireland
Didier Keymeulen, JPL, USA
Gul Khan, NWFP UET Peshawar, Pakistan
Julian Miller, University of York, UK
J Manuel Moreno Arostegui, Technical University of Catalunya, Spain
Jean-Marc Philippe, CEA LIST, France
Lukas Sekanina, Brno University of Technology, Czech Republic
Stephen Smith, University of York, UK
Adrian Stoica, JPL, USA
Gianluca Tempesti, University of York, UK
Christof Teuscher, Portland State University, USA
Jon Timmis, University of York, UK
Jim Torresen, University of Oslo, Norway
Martin Trefzer, University of York, UK
Gunnar Tufte, NTNU, Norway
Andy M. Tyrrell, University of York, UK
Andres Upegui, HEIG-VD Switzerland
Zdenek Vasicek, Brno University of Technology, Czech Republic
James Walker, University of York, UK
Alan Winfield, University of the West of England, UK
Xin Yao, University of Birmingham, UK
Sanyou Zeng, China University of Geoscience, China