Journal article

Using relaxational dynamics to reduce network congestion

Abstract:: We study the effects of relaxational dynamics on congestion pressure in scale free networks by analyzing the properties of the corresponding gradient networks (Z. Toroczkai, K. E. Bassler, Nature bf 428, 716 (2004)). Using the Family model (F. Family, J. Phys. A, bf 19, L441 (1986)) from surface-growth physics as single-step load-balancing dynamics, we show that the congestion pressure considerably drops on scale-free networks when compared with the same dynamics on random graphs. This is due to a structural transition of the corresponding gradient network clusters, which self-organize such as to reduce the congestion pressure. This reduction is enhanced when lowering the value of the connectivity exponent lambda towards 2.

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APA Style

López, E., Piontti, A., La Rocca, C., Torozckai, Z., Braunstein, L., & Macri, P. (2008). Using relaxational dynamics to reduce network congestion.

MLA Style

López, E, et al. Using Relaxational Dynamics to Reduce Network Congestion. 2008.

Chicago Style

López, E, A Piontti, C La Rocca, Z Torozckai, L Braunstein, and P Macri. 2008. Using Relaxational Dynamics to Reduce Network Congestion.
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+ López, E More by this author

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+ Piontti, A More by this author

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+ La Rocca, C More by this author

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+ Torozckai, Z More by this author

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+ Braunstein, L More by this author

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Publication date:: 2008-09-01

UUID:: uuid:012ffa78-0685-400a-9f13-ab191546d2b0
Local pid:: oai:eureka.sbs.ox.ac.uk:2305
Deposit date:: 2012-01-26
ARK identifier:: ark:/29072/ora_012ffa780685400a9f13ab191546d2b0

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Copyright date:: 2008

Licence:: Terms and Conditions of Use for Oxford University Research Archive

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