Factors that Affect the Evolution of Complex Cooperative Behavior

Collaboration in order to perform various tasks such as herding or hunting is frequently seen in nature. Cooperative behaviors benefit the group by helping them achieve rewards that would not be po...

[1]  Christopher C. Strelioff,et al.  Society, demography and genetic structure in the spotted hyena , 2012, Molecular ecology.

[2]  K. Holekamp,et al.  Interspecific competition influences reproduction in spotted hyenas , 2008 .

[3]  Craig W. Reynolds Flocks, herds, and schools: a distributed behavioral model , 1987, SIGGRAPH.

[4]  Risto Miikkulainen,et al.  Evolving Neural Networks through Augmenting Topologies , 2002, Evolutionary Computation.

[5]  Risto Miikkulainen,et al.  The role of reward structure, coordination mechanism and net return in the evolution of cooperation , 2011, CIG.

[6]  Risto Miikkulainen,et al.  Evolving Soccer Keepaway Players Through Task Decomposition , 2005, Machine Learning.

[7]  Risto Miikkulainen,et al.  Coevolution of Role-Based Cooperation in Multiagent Systems , 2009, IEEE Transactions on Autonomous Mental Development.

[8]  Hiromi Seno,et al.  A density-dependent diffusion model of shoaling of nesting fish , 1990 .

[9]  Susan M. Cooper,et al.  Optimal hunting group size: the need for lions to defend their kills against loss to spotted hyaenas , 1991 .

[10]  Olympia Roeva,et al.  Multiple model approach to modelling of Escherichia coli fed-batch cultivation extracellular production of bacterial phytase , 2007 .

[11]  Gerald Kastberger,et al.  Competitive interactions between spotted hyenas and lions in the Etosha National Park, Namibia , 2005 .

[12]  Hans Kruuk,et al.  The Spotted Hyena: A Study of Predation and Social Behavior , 1972 .

[13]  J. Elliott,et al.  Territoriality, density, and prey of the lion in Ngorongoro Crater, Tanzania , 1978 .

[14]  Kay E. Holekamp,et al.  Hunting rates and hunting success in the spotted hyena (Crocuta crocuta) , 1997 .

[15]  Risto Miikkulainen,et al.  Evolving multimodal behavior with modular neural networks in Ms. Pac-Man , 2014, GECCO.

[16]  Peter Arcese,et al.  Serengeti II : dynamics, management, and conservation of an ecosystem , 1996 .

[17]  Toshio Fukuda,et al.  Virus-evolutionary genetic algorithm-coevolution of planar grid model , 1996, Proceedings of IEEE 5th International Fuzzy Systems.

[18]  D. Floreano,et al.  Division of labour and colony efficiency in social insects: effects of interactions between genetic architecture, colony kin structure and rate of perturbations , 2006, Proceedings of the Royal Society B: Biological Sciences.

[19]  Terence Soule,et al.  A comparison of a communication strategies in cooperative learning , 2012, GECCO '12.

[20]  Terence Soule,et al.  Evolution of communication and cooperation , 2014, GECCO.

[21]  Marco Dorigo,et al.  Ant system: optimization by a colony of cooperating agents , 1996, IEEE Trans. Syst. Man Cybern. Part B.

[22]  Craig Packer,et al.  Top–down population regulation of a top predator: lions in the Ngorongoro Crater , 2004, Proceedings of the Royal Society of London. Series B: Biological Sciences.

[23]  Simon M. Lucas,et al.  Evolution versus Temporal Difference Learning for learning to play Ms. Pac-Man , 2009, 2009 IEEE Symposium on Computational Intelligence and Games.

[24]  Risto Miikkulainen,et al.  Constructing competitive and cooperative agent behavior using coevolution , 2010, CIG.

[25]  Minoru Asada,et al.  Incremental Coevolution With Competitive and Cooperative Tasks in a Multirobot Environment , 2006, Proceedings of the IEEE.

[26]  Kay E. Holekamp,et al.  Lions, hyenas and mobs (oh my!) , 2016, Current zoology.