We present previously undescribed spatial group patterns that emerge in a one-dimensional hyperbolic model for animal group formation and movement. The patterns result from the assumption that the interactions governing movement depend not only on distance between conspecifics, but also on how individuals receive information about their neighbors and the amount of information received. Some of these patterns are classical, such as stationary pulses, traveling waves, ripples, or traveling trains. However, most of the patterns have not been reported previously. We call these patterns zigzag pulses, semizigzag pulses, breathers, traveling breathers, and feathers.
Beschreibung
CiteULike: Complex spatial group patterns result from different animal communication mechanisms
Eftimie2007 - Complex spatial group patterns result from different animal communication mechanisms.pdf:Swarms/Eftimie2007 - Complex spatial group patterns result from different animal communication mechanisms.pdf:PDF
%0 Journal Article
%1 Eftimie2007
%A Eftimie, R.
%A de Vries, G.
%A Lewis, M. A.
%D 2007
%J Proc. Natl. Acad. Sci. U. S. A.
%K animal-groups collective-motion patterns swarms
%N 17
%P 6974--6979
%R 10.1073/pnas.0611483104
%T Complex spatial group patterns result from different animal communication mechanisms
%V 104
%X We present previously undescribed spatial group patterns that emerge in a one-dimensional hyperbolic model for animal group formation and movement. The patterns result from the assumption that the interactions governing movement depend not only on distance between conspecifics, but also on how individuals receive information about their neighbors and the amount of information received. Some of these patterns are classical, such as stationary pulses, traveling waves, ripples, or traveling trains. However, most of the patterns have not been reported previously. We call these patterns zigzag pulses, semizigzag pulses, breathers, traveling breathers, and feathers.
@article{Eftimie2007,
abstract = {We present previously undescribed spatial group patterns that emerge in a one-dimensional hyperbolic model for animal group formation and movement. The patterns result from the assumption that the interactions governing movement depend not only on distance between conspecifics, but also on how individuals receive information about their neighbors and the amount of information received. Some of these patterns are classical, such as stationary pulses, traveling waves, ripples, or traveling trains. However, most of the patterns have not been reported previously. We call these patterns zigzag pulses, semizigzag pulses, breathers, traveling breathers, and feathers.},
added-at = {2011-05-10T15:06:54.000+0200},
author = {Eftimie, R. and de Vries, G. and Lewis, M. A.},
biburl = {https://www.bibsonomy.org/bibtex/2409b17640c210bbc7e019d8bbc3db354/rincedd},
description = {CiteULike: Complex spatial group patterns result from different animal communication mechanisms},
doi = {10.1073/pnas.0611483104},
file = {Eftimie2007 - Complex spatial group patterns result from different animal communication mechanisms.pdf:Swarms/Eftimie2007 - Complex spatial group patterns result from different animal communication mechanisms.pdf:PDF},
groups = {public},
interhash = {9505c72e586301c71ce16d9caf5c4eb6},
intrahash = {af94bab8634509e59b205664cbb340e6},
journal = {Proc. Natl. Acad. Sci. U. S. A.},
keywords = {animal-groups collective-motion patterns swarms},
number = 17,
pages = {6974--6979},
timestamp = {2011-05-10T15:11:03.000+0200},
title = {Complex spatial group patterns result from different animal communication mechanisms},
username = {rincedd},
volume = 104,
year = 2007
}