Abstract Overlays using a Transport Network Model

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Reference

Gary Greenfield: Abstract Overlays using a Transport Network Model. In: Bridges 2011. Pages 45–50

DOI

Abstract

For artistic purposes, we modify a unusual model for pattern formation derived from simulating transport networks using virtual ants. More specifically, by suitably coloring the pheromone trails produced by the virtual ants that form the transport networks, and by overlaying a series of such networks, we obtain abstract pieces that have interesting depth and color interactions. Moreover, because of the way they are formed, these patterns also tile the plane. The elegance and simplicity that results is contrasted with the complexity of the underlying simulation — a central theme which informs our work.

Extended Abstract

Bibtex

Used References

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

[2] Greenfield G., Case Study: A Sculptor-Programmer Collaboration, University of Richmond Technical Report TR-93-03, 1993.

[3] Greenfield G., Evolutionary methods for ant colony paintings, Applications of Evolutionary Computing, EvoWorkshops 2005 Proceedings, Springer-Verlag Lecture Notes in Computer Science, LNCS 3449, eds. F. Rothlauf et al., 2005, 478–487.

[4] Greenfield G., Generative art and evolutionary refinement, EvoApplications 2010, Part II, LNCS 6025, Springer-Verlag, eds. C. Di Chio et al., 2010, 291–300.

[5] Hauer E., Continua, Princeton Architectural Press, New York, NY, 2004.

[6] Jones J., characteristics of pattern formation and evolution approximations of Physarum transport net- works, Artifical Life, 16, 2010, 127–153.

[7] Roelofs R., About weaving and helical holes, BRIDGES 2010 Conference Proceedings, eds. G. Hart and R. Sarhangi, 2010, 75—84.

[8] Roelofs R., Connected holes, BRIDGES 2008 Conference Proceedings, eds. R. Sarhangi and C. Sequin, 2008, 29—38.

[9] Turk G., Generating textures on arbitrary surfaces using reaction-diffusion, Compugter Gaphics, 25(4), 1991, 289-297.

[10] Wan L., Liu X., Wong T. and Leung C., Evolving mazes from images, IEEE Transactions on Visual- ization and Computer Graphics, 16(2), 2010, 287–297

[11] Witkin A. and Kass M., Reaction-diffusion textures, Computer Gaphics, 25(4), 1991, 299-308.

[12] Young D., A local activator-inhibitor model of vertebrate skin patterns, Mathematical Bioscineces, 72(1), 1984.


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