Easily Repairable Networks: Reconnecting Nodes after Damage

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Easily Repairable Networks: Reconnecting Nodes after Damage

Robert S. Farr, John L. Harer, and Thomas M. A. Fink

Phys. Rev. Lett. 113, 138701 – Published 26 September 2014

Abstract

We introduce a simple class of distribution networks that withstand damage by being repairable instead of redundant. Instead of asking how hard it is to disconnect nodes through damage, we ask how easy it is to reconnect nodes after damage. We prove that optimal networks on regular lattices have an expected cost of reconnection proportional to the lattice length, and that such networks have exactly three levels of structural hierarchy. We extend our results to networks subject to repeated attacks, in which the repairs themselves must be repairable. We find that, in exchange for a modest increase in repair cost, such networks are able to withstand any number of attacks.

Received 8 May 2014

DOI:https://doi.org/10.1103/PhysRevLett.113.138701

Authors & Affiliations

Robert S. Farr^1,2,*, John L. Harer^3,†, and Thomas M. A. Fink^1,4,‡

¹London Institute for Mathematical Sciences, 35a South Street, Mayfair, London W1K 2XF, United Kingdom
²Unilever R&D, Colworth Science Park, MK44 1LQ Bedford, United Kingdom
³Department of Mathematics, Duke University, Rayleigh-Durham, North Carolina 27708-0320, USA
⁴Centre National de la Recherche Scientifique, Paris 75248, France

^*robert.farr@unilever.com
^†harer@math.duke.edu
^‡tf@lims.ac.uk

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Vol. 113, Iss. 13 — 26 September 2014

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