Title :
Emergent Spatial Agent Segregation
Author :
Hawick, K.A. ; Scogings, C.J.
Author_Institution :
Inst. for Inf. & Math. Sci., Massey Univ., Auckland
Abstract :
Animat agents are usually formulated as spatially located agents that interact according to some microscopic behavioural rules. We use our predator-prey animat model to explore spatial segregation and other self-organising effects. We compare the emergent macroscopic behaviour with that of non-intelligence models such as those governed solely by microscopic statistical mechanics rules. We report on an emergent separation of sub-species amongst our prey animals when a very simple genetic marker is used and a microscopic breeding preference is introduced. We discuss some quantitative metrics such as the spatial density of animals and the density-density correlation function and how these can be used to categorize the different self-organisational regimes that emerge from the model.
Keywords :
artificial life; predator-prey systems; animat agents; density-density correlation function; genetic marker; microscopic breeding preference; microscopic statistical mechanics rules; predator-prey animat model; spatial agent segregation; spatial segregation; Animation; Biological system modeling; Computer science; Context modeling; Genetics; Intelligent agent; Microscopy; Physics; Predator prey systems; Spirals; animat; phase separation; segregation; self-organisation; spatial agent;
Conference_Titel :
Web Intelligence and Intelligent Agent Technology, 2008. WI-IAT '08. IEEE/WIC/ACM International Conference on
Conference_Location :
Sydney, NSW
Print_ISBN :
978-0-7695-3496-1
DOI :
10.1109/WIIAT.2008.211
