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On the computational complexity of the virtual network embedding problem

On the computational complexity of the virtual network embedding problem
On the computational complexity of the virtual network embedding problem
Given a graph representing a substrate (or physical) network with node and edge capacities and a set of virtual networks with node capacity demands and node-to-node traffic demands, the Virtual Network Embedding problem (VNE) calls for an embedding of (a subset of) the virtual networks onto the substrate network which maximizes the total profit while respecting the physical node and edge capacities. In this work, we investigate the computational complexity of VNE. In particular, we present a polynomial-time reduction from the maximum stable set problem which implies strong NP-hardness for VNE even for very special subclasses of graphs and yields a strong inapproximability result for general graphs. We also consider the special cases obtained when fixing one of the dimensions of the problem to one. We show that VNE is still strongly NP-hard when a single virtual network request is present or when each virtual network request consists of a single virtual node and that it is weakly NP-hard for the case with a single physical node.
213
Elsevier
Coniglio, Stefano
03838248-2ce4-4dbc-a6f4-e010d6fdac67
Amaldi, Edoardo
eefad18b-86c1-4a8f-a931-23e8ddd59d6e
Koster, Arie
22c70cb3-4f20-4721-9694-1a45a623c2f8
Tieves, Martin
dfba8a3e-6f1a-46fb-a501-d58cccd6dac1
Coniglio, Stefano
03838248-2ce4-4dbc-a6f4-e010d6fdac67
Amaldi, Edoardo
eefad18b-86c1-4a8f-a931-23e8ddd59d6e
Koster, Arie
22c70cb3-4f20-4721-9694-1a45a623c2f8
Tieves, Martin
dfba8a3e-6f1a-46fb-a501-d58cccd6dac1

Coniglio, Stefano, Amaldi, Edoardo, Koster, Arie and Tieves, Martin (2016) On the computational complexity of the virtual network embedding problem. In Electronic notes in discrete mathematics. vol. 52, Elsevier. p. 213 . (doi:10.1016/j.endm.2016.03.028).

Record type: Conference or Workshop Item (Paper)

Abstract

Given a graph representing a substrate (or physical) network with node and edge capacities and a set of virtual networks with node capacity demands and node-to-node traffic demands, the Virtual Network Embedding problem (VNE) calls for an embedding of (a subset of) the virtual networks onto the substrate network which maximizes the total profit while respecting the physical node and edge capacities. In this work, we investigate the computational complexity of VNE. In particular, we present a polynomial-time reduction from the maximum stable set problem which implies strong NP-hardness for VNE even for very special subclasses of graphs and yields a strong inapproximability result for general graphs. We also consider the special cases obtained when fixing one of the dimensions of the problem to one. We show that VNE is still strongly NP-hard when a single virtual network request is present or when each virtual network request consists of a single virtual node and that it is weakly NP-hard for the case with a single physical node.

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More information

Accepted/In Press date: 2 March 2015
Published date: 28 March 2016
Organisations: Operational Research

Identifiers

Local EPrints ID: 411015
URI: http://eprints.soton.ac.uk/id/eprint/411015
DOI: doi:10.1016/j.endm.2016.03.028
PURE UUID: ad3060d0-68fd-4cab-a186-8e2ea69ab171
ORCID for Stefano Coniglio: ORCID iD orcid.org/0000-0001-9568-4385

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Date deposited: 13 Jun 2017 16:31
Last modified: 16 Mar 2024 04:24

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Author: Stefano Coniglio ORCID iD
Author: Edoardo Amaldi
Author: Arie Koster
Author: Martin Tieves

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