Table of Contents

• On Fireflies, Cellular Systems, and EvolwareChristof Teuscher, Mathieu S. Capcarrère. 1-12 [doi]
• A Comparison of Different Circuit Representations for Evolutionary Analog Circuit DesignLyudmila Zinchenko, Heinz Mühlenbein, Victor Kureichik, Thilo Mahnig. 13-23 [doi]
• Fault Tolerance via Endocrinologic Based Communication for Multiprocessor SystemsAndrew J. Greensted, Andrew M. Tyrrell. 24-34 [doi]
• Using Negative Correlation to Evolve Fault-Tolerant CircuitsThorsten Schnier, Xin Yao. 35-46 [doi]
• A Genetic Representation for Evolutionary Fault Recovery in Virtex FPGAsJason D. Lohn, Gregory V. Larchev, Ronald F. DeMara. 47-56 [doi]
• Biologically Inspired Evolutionary DevelopmentSanjeev Kumar, Peter J. Bentley. 57-68 [doi]
• Building Knowledge into Developmental Rules for Circuit DesignGunnar Tufte, Pauline C. Haddow. 69-80 [doi]
• Evolving Fractal ProteinsPeter J. Bentley. 81-92 [doi]
• A Developmental Method for Growing Graphs and CircuitsJulian F. Miller, Peter Thomson. 93-104 [doi]
• Developmental Models for Emergent ComputationKeith L. Downing. 105-116 [doi]
• Developmental Effects on Tuneable Fitness LandscapesPiet van Remortel, Johan Ceuppens, Anne Defaweux, Tom Lenaerts, Bernard Manderick. 117-128 [doi]
• POEtic Tissue: An Integrated Architecture for Bio-inspired HardwareAndrew M. Tyrrell, Eduardo Sanchez, Dario Floreano, Gianluca Tempesti, Daniel Mange, Juan Manuel Moreno, Jay Rosenberg, Alessandro E. P. Villa. 129-140 [doi]
• Ontogenetic Development and Fault Tolerance in the POEtic TissueGianluca Tempesti, Daniel Roggen, Eduardo Sanchez, Yann Thoma, Richard Canham, Andrew M. Tyrrell. 141-152 [doi]
• A Morphogenetic Evolutionary System: Phylogenesis of the POEtic CircuitDaniel Roggen, Dario Floreano, Claudio Mattiussi. 153-164 [doi]
• Spiking Neural Networks for Reconfigurable POEtic TissueJan Eriksson, Oriol Torres, Andrew Mitchell, Gayle Tucker, Ken Lindsay, David M. Halliday, Jay Rosenberg, Juan Manuel Moreno, Alessandro E. P. Villa. 165-173 [doi]
• A Learning, Multi-layered, Hardware Artificial Immune System Implemented upon an Embryonic ArrayRichard Canham, Andrew M. Tyrrell. 174-185 [doi]
• Virtual Reconfigurable Circuits for Real-World Applications of Evolvable HardwareLukás Sekanina. 186-197 [doi]
• Gene Finding Using Evolvable Reasoning HardwareMoritoshi Yasunaga, Ikuo Yoshihara, Jung Hwan Kim. 198-207 [doi]
• Evolvable Fuzzy System for ATM Cell SchedulingJ. H. Li, M. H. Lim. 208-217 [doi]
• Synthesis of Boolean Functions Using Information TheoryArturo Hernández Aguirre, Edgar C. González Equihua, Carlos A. Coello Coello. 218-227 [doi]
• Evolving Multiplier Circuits by Training Set and Training Vector PartitioningJim Torresen. 228-237 [doi]
• Evolution of Self-diagnosing HardwareMiguel Garvie, Adrian Thompson. 238-248 [doi]
• Routing of Embryonic Arrays Using Genetic AlgorithmsCesar Ortega-Sanchez, Jose Torres-Jimenez, Jorge Morales-Cruz. 249-261 [doi]
• Exploiting Auto-adaptive 7GP for Highly Effective Test Programs GenerationFulvio Corno, F. Cumani, Giovanni Squillero. 262-273 [doi]
• Speeding up Hardware Evolution: A Coprocessor for Evolutionary AlgorithmsTillmann Schmitz, Steffen G. Hohmann, Karlheinz Meier, Johannes Schemmel, Felix Schürmann. 274-285 [doi]
• Automatic Evolution of Signal Separators Using Reconfigurable HardwareRicardo Salem Zebulum, Adrian Stoica, Didier Keymeulen, Michael I. Ferguson, Vu Duong, Xin Guo, Vatche Vorperian. 286-295 [doi]
• Distributed Control in Self-reconfigurable RobotsHenrik Hautop Lund, Rasmus Lock Larsen, Esben Hallundbæk Østergaard. 296-307 [doi]
• Co-evolving Complex Robot BehaviorEsben Hallundbæk Østergaard, Henrik Hautop Lund. 308-319 [doi]
• Evolving Reinforcement Learning-Like Abilities for RobotsJesper Blynel. 320-331 [doi]
• Evolving Image Processing Operations for an Evolvable Hardware EnvironmentStephen L. Smith, David P. Crouch, Andrew M. Tyrrell. 332-343 [doi]
• Hardware Implementation of a Genetic Controller and Effects of Training on EvolutionM. A. Hannan Bin Azhar, Keith R. Dimond. 344-354 [doi]
• Real World Hardware Evolution: A Mobile Platform for Sensor EvolutionRobert Goldsmith. 355-364 [doi]
• Real-Time Reconfigurable Linear Threshold Elements and Some Applications to Neural HardwareSnorre Aunet, Morten Hartmann. 365-376 [doi]
• Simulation of a Neural Node Using SET TechnologyRudie van de Haar, Jaap Hoekstra. 377-386 [doi]
• General Purpose Processor Architecture for Modeling Stochastic Biological Neuronal AssembliesN. Venkateswaran, C. Chandramouli. 387-397 [doi]
• Use of Particle Swarm Optimization to Design Combinational Logic CircuitsCarlos A. Coello Coello, Erika Hernández Luna, Arturo Hernández Aguirre. 398-409 [doi]
• A Note on Designing Logical Circuits Using SATGiovani Gomez Estrada. 410-421 [doi]
• Using Genetic Programming to Generate Protocol Adaptors for Interprocess CommunicationWerner Van Belle, Tom Mens, Theo D'Hondt. 422-433 [doi]
• Using Genetic Programming and High Level Synthesis to Design Optimized DatapathSérgio G. Araújo, Antônio C. Mesquita, Aloysio Pedroza. 434-445 [doi]
• The Effect of the Bulge Loop upon the Hybridization Process in DNA ComputingFumiaki Tanaka, Atsushi Kameda, Masahito Yamamoto, Azuma Ohuchi. 446-456 [doi]
• Quantum versus Evolutionary Systems. Total versus Sampled SearchHugo de Garis, Amit Gaur, Ravichandra Sriram. 457-465 [doi]