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Please use this identifier to cite or link to this item: http://ir.ncue.edu.tw/ir/handle/987654321/8951

Title: Investigation of the Dynamics of Critical K=2 Kauffman Networks Using Second-order Loops
Authors: Shan-Tarng Chen;Hsen-Che Tseng;Shu-Chin Wang;Ping-Cheng Li
Contributors: 物理系
Keywords: Boolean update functions;Kauffman networks;network dynamics;relevant element;second-order loop
Date: 2008-09
Issue Date: 2011-05-11T05:48:21Z
Publisher: The Physical Society of Japan
Abstract: The mean number and length of attractors in Kauffman networks are strongly affected by the loops formed from the relevant elements. In this paper, to investigate the dynamic behavior of the critical�k=2 Kauffman networks, we first employ second-order loops,�viz., the relevant element loops having two elements each with two inputs. On the basis of our simulation, in addition to obtaining various dynamic properties of the second-order loops, we also unexpectedly find that the dynamic behavior of the second-order loops is similar to that of the Kauffman networks. Thus, we were able to speculate on various properties of Kauffman networks using the results obtained from the second-order loops. It turns out that for the second-order loops, the mean number of attractors increases exponentially with the number of relevant elements, while the mean attractor length increases as a power law with the number of relevant elements.
Relation: Journal of the Physical Society of�Japan, 77(9):094002
Appears in Collections:[物理學系] 期刊論文

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