Title :
Formation of network modules by dual phase evolution
Author :
Leishman, Tania ; Green, David
Author_Institution :
Monash Univ., Clayton, VIC
Abstract :
Modular structure is the most common way of managing complexity in large systems, but how modules emerge in self-organizing systems is poorly understood. Here we show that in complex networks, modules can form spontaneously under dual phase evolution (DPE), a process in which a system repeatedly flips between a weakly connected ldquobalancerdquo phase and a richly connected ldquovariationrdquo phase. By creating and preserving stable components but still permitting variation, DPE makes it possible to direct self-organization into creating a wide variety of different forms.
Keywords :
complex networks; graph theory; network theory (graphs); complex network; dual phase evolution; graph theory; large system complexity; network modular structure formation; self-organizing system; Complex networks; Crystallization; Distributed information systems; Internet; Modems; Power engineering and energy; Power grids; Sensor arrays; Software agents; Systems engineering and theory; connectivity; criticality; dual phase evolution; networks; optimization; phase change; self-organization;
Conference_Titel :
Automation Congress, 2008. WAC 2008. World
Conference_Location :
Hawaii, HI
Print_ISBN :
978-1-889335-38-4
Electronic_ISBN :
978-1-889335-37-7
