Table of Contents

• Dude, where is my sex gene? - Persistence of sex over evolutionary time in cellular automataNicolas Oros, Chrystopher L. Nehaniv. 1-8 [doi]
• Mechanisms affecting the evolution of evolvabilityGregg T. Vesonder. 9-12 [doi]
• A constructivist approach to robot language learning via simulated babbling and holophrase extractionJoe Saunders, Caroline Lyon, Frank Förster, Chrystopher L. Nehaniv, Kerstin Dautenhahn. 13-20 [doi]
• Exploring Empowerment as a Basis for Quantifying SustainabilityJan T. Kim, Daniel Polani. 21-28 [doi]
• The impact of communication and memory in hive-based foraging agentsPaul W. Schermerhorn, Matthias Scheutz. 29-36 [doi]
• Semantic content and pragmatic convention: Emergence through individual advantage in spatialized environmentsPatrick Grim. 37-44 [doi]
• Using real-time recognition of human-robot interaction styles for creating adaptive robot behaviour in robot-assisted playDorothée François, Kerstin Dautenhahn, Daniel Polani. 45-52 [doi]
• Self-adaptive multi-robot construction using gene regulatory networksHongliang Guo, Yan Meng, Yaochu Jin. 53-60 [doi]
• Influence of regulation logic on the easiness of evolving sustained oscillation for gene regulatory networksYaochu Jin, Yan Meng, Bernhard Sendhoff. 61-68 [doi]
• Distinction between types of motivations: Emergent behavior with a neural, model-based reinforcement learning systemElshad Shirinov, Martin V. Butz. 69-76 [doi]
• Developing preferential attention to a speaker: A robot learning to recognise its carerJohn Christopher Murray, Lola Cañamero. 77-84 [doi]
• Enhancing the architecture of interactive evolutionary design for exploring heterogeneous particle swarm dynamics: An in-class experimentHiroki Sayama, Shelley D. Dionne, Craig B. Laramee, David Sloan Wilson. 85-91 [doi]
• Cockroaches, drunkards, and climbers: Modeling the evolution of simple movement strategies using digital organismsWesley R. Elsberry, Laura M. Grabowski, Charles Ofria, Robert T. Pennock. 92-99 [doi]
• Applying digital evolution to the design of self-adaptive softwareBenjamin E. Beckmann, Laura M. Grabowski, Philip K. McKinley, Charles Ofria. 100-107 [doi]
• On the properties of artificial development and its use in evolvable hardwareTüze Kuyucu, Martin Trefzer, Julian F. Miller, Andrew M. Tyrrell. 108-115 [doi]
• Evolution of bilateral symmetry in agents controlled by spiking neural networksNicolas Oros, Volker Steuber, Neil Davey, Lola Cañamero, Rod Adams. 116-123 [doi]
• Ecological approaches to diversity maintenance in evolutionary algorithmsSherri Goings, Charles Ofria. 124-130 [doi]
• Emergence and analysis of complex food webs in an individual-based artificial ecologyWalter de Back, George Kampis. 131-138 [doi]
• On the value of simple stoichiometry to ALife simulations using EcoSimMatthew Conforth, Yan Meng. 139-146 [doi]
• Biomimetic evolutionary analysis: Robotically-simulated vertebrates in a predator-prey ecologyNicole Doorly, Kira Irving, Gianna McArthur, Keon Combie, Virginia Engel, Hassan Sakhtah, Elise Stickles, Hannah Rosenblum, Andres Gutierrez, Robert Root, Chun Wai Liew, John H. Long. 147-154 [doi]
• Peak analysis for characterizing evolutionary behaviorJeffrey O. Pfaffmann. 155-162 [doi]
• An artificial t cell immune system for predicting MHC-II binding peptidesCarsten Henneges, Stefan Huster, Andreas Zell. 163-170 [doi]
• Cultural transmission in robotic swarms through RFID cardsJoshua Brandoff, Hiroki Sayama. 171-178 [doi]
• The role of lateral inhibition in the sensory processing in a simulated spiking neural controller for a robotDavid Bowes, Rod Adams, Lola Cañamero, Volker Steuber, Neil Davey. 179-183 [doi]
• Evolving cooperative pheromone usage in digital organismsBrian D. Connelly, Philip K. McKinley, Benjamin E. Beckmann. 184-191 [doi]