Ant Paintings Based on the Seed Foraging Behavior of P. barbatus

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Reference

Gary Greenfield: Ant Paintings Based on the Seed Foraging Behavior of P. barbatus. In: Bridges 2013. Pages 43–48

DOI

Abstract

We describe our conversion of a simulation of the seed foraging behavior of the ant species P. barbatus to a generative art technique for creating ant paintings. We also show how the key parameters involved influence the results.

Extended Abstract

Bibtex

Used References

[1] Adler, F.R., Gordon, D.M., Optimization, conflict and non-overlapping foraging ranges in ants. Ameri- can Naturalist, vol. 162, 2003, 529–543.

[2] Aupetit, S., Bordeau, V., Monmarch ́e, N., Slimane, M., Venturini, G.: Interactive evolution of ant paintings, 2003 Congress on Evolutionary Computation Proceedings (eds. B. McKay et al.), IEEE Press, vol. 2, 2003, 1376–1383.

[3] Gordon, D. M., The development of an ant colony’s foraging range, Animal Behaviour, vol. 49, 1995, 649–659.

[4] Gordon, D., Ant Encounters: Interaction Networks and Colony Behavior, Princeton University Press, Princeton NJ, 2010.

[5] Greenfield, G., Abstract overlays using a transport network model, BRIDGES 2011 Conference Pro- ceedings, (eds. C. Sequin and R. Sarhangi), 2011, 45–50.

[6] Greenfield, G., Ant paintings using a multiple pheromone model, BRIDGES 2006 Conference Proceed- ings, (eds. R. Sarhangi and J. Sharp), 2006, 319–326.

[7] Greenfield, G., Evolutionary methods for ant colony paintings, Applications of Evolutionary Comput- ing, EvoWorkshops 2005 Proceedings, Springer-Verlag Lecture Notes in Computer Science, LNCS 3449 (eds. F. Rotlauf et al), 2005, 478–487.

[8] Greenfield, G., On evolving multi-pheromone ant paintings, 2006 IEEE World Congress on Compu- tational Intelligence, Vancouver, BC, Canada, IEEE Press, WCCI06 Conference Proceedings, (DVD- ROM ISBN: 0-7803-9489-5), 2006, 7425–7431.

[9] Greenfield, G., On simulating seed foraging by red harvester ants, 2013 IEEE Symposium Series on Computational Intelligence Proceedings, to appear, 2013.

[10] Greenfield, G., On variation within swarm paintings, Proceedings of ISAMA 2009, Eighth Interdisci- plinary Conference of the International Society of the Arts, Mathematics, and Architecture, (eds. E. Akleman and N. Friedman), Hyperseeing, Spring 2009, 5–12.

[11] Greenfield, G., Stigmmetry prints from patterns of circles, Bridges 2012 Conference Proceedings, (eds. R. Bosch, D. McKenna and R. Sarhangi), 2012, 291–298.

[12] Greenfield, G., The computer art of Manuel Quejido revisited, submitted for publication, 2013.

[13] Greenfield, G.. Machado, P., Simulating artist and critic dynamics — an agent-based application of an evolutionary art system, Proceedings of the International Joint Conference on Computational In- telligence, Funchal, Portugal, 5-7 October 2009, (eds. A. Dourado, A. Rosa and K. Madani), 2009, 190–197.

[14] Jones J., Characteristics of pattern formation and evolution approximations of Physarum transport net- works, Artifical Life, 16, 2010, 127–153. [15] Moura, L., Pereira, H., Man + Robots: Symbiotic Art, Institut d’Art Contemporain, Lyon/Villeurbanne, France, 2004.


[16] Moura, L., Ramos, V., Swarm paintings — nonhuman art, Architopia: Book, Art, Architecture, and Science (eds. J. Maubant et al.), Institut d’Art Contemporain, Lyon/Villeurbanne, France, 2002, 5–24.

[17] Prabhakar, B., Dektar, K.N., Gordon, D.M., The regulation of ant colony foraging activ- ity without spatial information, PLoS Computational Biology, vol. 8, no. 8, 2012, e1002670. DOI:10.1371/journal.pcbi.1002670

[18] Ramos, V., Almeida, F., Artificial ant colonies in digital image habitats - a mass behaviour effect study on pattern recognition, Proceedings of ANTS’2000 - 2nd International Workshop on Ant Algorithms: From Ant Colonies to Artificial Ants (eds. M. Dorigo et al.), Brussels, Belgium, 2000, 113–116.

[19] Ramos, V., Merelo, J., Self-organized stigmergic document maps: environment as a mechanism for context learning, AEB 2002, First Spanish Conference on Evolutionary and Bio-Inspired Algorithms (eds. E. Alba et al.), M ́erida, Spain, 2002, 284–293.

[20] Sturgis, S.J., Greene, M.J., Gordon, D.M., Hydrocarbons on harvester ant (Pogonomyrmex barbatus) middens guide foragers to the nest. Journal of Chemical Ecology. 2011. DOI 10.1007/s10886-011- 9947-y

[21] Urbano, P., Playing in the pheromone playground: experiences in swarm painting, Applications of Evo- lutionary Computing, EvoWorkshops 2005 Proceedings, Springer-Verlag Lecture Notes in Computer Science, LNCS 3449 (eds. F. Rothlauf et al.), 2005, 478–487.

[22] Urbano, P., The T. albipennis sand painting artists, Applications of Evolutionary Computation, Springer-Verlag Lecture Notes in Computer Science,LNCS 6625, 2011, 414–423.


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