Optimization driven multi-hop network design and experimentation: the approach of the FP7 project OPNEX

Kostas Choumas; Stratos Keranidis; Thanasis Korakis; Iordanis Koutsopoulos; Leandros Tassiulas; Felix Juraschek; Mesut Günes; Emmanuel Baccelli; Paweł Misiorek; Andrzej Szwabe; Theodoros Salonidis; Henrik Lundgren

doi:10.1109/MCOM.2012.6211496

Communication Dans Un Congrès IEEE Communications Magazine Année : 2012

Optimization driven multi-hop network design and experimentation: the approach of the FP7 project OPNEX

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Kostas Choumas

Fonction : Auteur

Centre for Research and Technology Hellas

Stratos Keranidis

Fonction : Auteur

Centre for Research and Technology Hellas

Thanasis Korakis

Fonction : Auteur

Centre for Research and Technology Hellas

Iordanis Koutsopoulos

Fonction : Auteur

Centre for Research and Technology Hellas

Department of Computer and Communications Engineering [Volos]

Leandros Tassiulas

Fonction : Auteur

Centre for Research and Technology Hellas

Department of Computer and Communications Engineering [Volos]

Felix Juraschek

Fonction : Auteur

Institut für Informatik [Berlin]

Mesut Günes

Fonction : Auteur
PersonId : 747816
IdHAL : mesutsimsek
ORCID : 0000-0003-3041-9331

Institut für Informatik [Berlin]

Emmanuel Baccelli

Fonction : Auteur

High performance communication

Paweł Misiorek

Fonction : Auteur

Poznan University of Technology

Andrzej Szwabe

Fonction : Auteur

Poznan University of Technology

Theodoros Salonidis

Fonction : Auteur

Technicolor [Cesson Sévigné]

Henrik Lundgren

Fonction : Auteur

Technicolor [Cesson Sévigné]

Résumé

The OPNEX project exemplifies system and optimization theory as the foundations for algorithms that provably maximize capacity of wireless networks. The algorithms termed in abstract network models have been converted to protocols and architectures practically applicable to wireless systems. A validation methodology through experimental protocol evaluation in real network testbeds has been proposed and used. OPNEX uses recent advances in system theoretic network control, including the Back-Pressure principle, max-weight scheduling, utility optimization, congestion control, and the primal-dual method for extracting network algorithms. These approaches exhibited vast potential for achieving high capacity and full exploitation of resources in abstract network models and found their way to reality in high performance architectures developed as a result of the research conducted within OPNEX.

Domaines

Réseaux et télécommunications [cs.NI]

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2011OPNEX_joint_revised.pdf (401.25 Ko)

Origine : Fichiers produits par l'(les) auteur(s)

Emmanuel Baccelli : Connectez-vous pour contacter le contributeur

https://hal.science/hal-00722397

Soumis le : mercredi 1 août 2012-15:27:16

Dernière modification le : mercredi 19 avril 2023-04:23:01

Archivage à long terme le : vendredi 2 novembre 2012-02:41:03

Dates et versions

hal-00722397 , version 1 (01-08-2012)

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HAL Id : hal-00722397 , version 1
DOI : 10.1109/MCOM.2012.6211496

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Kostas Choumas, Stratos Keranidis, Thanasis Korakis, Iordanis Koutsopoulos, Leandros Tassiulas, et al.. Optimization driven multi-hop network design and experimentation: the approach of the FP7 project OPNEX. IEEE Communications Magazine, Jun 2012, United States. pp.122 - 130, ⟨10.1109/MCOM.2012.6211496⟩. ⟨hal-00722397⟩

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Optimization driven multi-hop network design and experimentation: the approach of the FP7 project OPNEX

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