, Windows azure: Microsoft's cloud platform

, Amazon Web Services Blog: Introducing Amazon Virtual Private Cloud (VPC), 2009.

M. Bari, R. Boutaba, R. Esteves, M. Granville, . Podlesny et al., Data center network virtualization: A survey, 2012.

T. Benson, A. Akella, A. Shaikh, and S. Sahu, Cloudnaas: a cloud networking platform for enterprise applications, Proceedings of the 2nd ACM Symposium on Cloud Computing, 2011.

P. Costa, M. Migliavacca, P. Pietzuch, and A. Wolf, Naas: Network-as-a-service in the cloud, Proceedings of the 2nd USENIX conference on Hot Topics in Management of Internet, Cloud, and Enterprise Networks and Services, Hot-ICE, pp.1-1, 2012.

Q. Duan, Modeling and performance analysis on network virtualization for composite network-cloud service provisioning, Services (SERVICES), 2011 IEEE World Congress on, pp.548-555

Q. Duan, Y. Yan, and A. Vasilakos, A survey on service-oriented network virtualization toward convergence of networking and cloud computing, Network and Service Management, vol.9, issue.4, pp.373-392, 2012.

, Amazon Inc. Amazon Elastic Compute Cloud (Amazon EC2), 2008.

L. Keith-r-jackson, K. Ramakrishnan, S. Muriki, S. Canon, J. Cholia et al., Performance analysis of high performance computing applications on the amazon web services cloud

, Pour que les choix faits en amont impactent les performances, le service de Network Delivery qui se veut «User Centric» voir «Content Centric» doit orchestrer une vue globale et dynamique du service à rendre en s'appuyant sur l'hyperviseur réseau. C'est l'hyperviseur réseau qui devrait maintenir dynamiquement le service du Media Delivery en supervisant la topologie du réseau virtuel, la capacité des liens, les délais acceptables pour les liens, etc, L'étude réalisée montre que les outils d'aujourd'hui agissent au niveau du Media delivery, dont les opérations consistent très souvent au calcul de meilleurs chemins

, Une première architecture fonctionnelle a été développée dans le cadre ITS, l'idée est d'intégrer donc la partie organisationnelle pour répondre à des déploiement dynamiques et à la demande des différents services (trafic, parking, jeux, etc.). Deux questions importantes seront traités dans ce contexte : le déploiement des agents de l'architecture, Domaine Véhiculaire Ce dernier axe constitue un champ d'application, vol.3

J. Internationaux and D. Chapitres-de-livre-?-gladys, Information Model for Dynamic Deployment of Services, The International Journal of Innovative Research in Computer and Communication Engineering, vol.3, issue.6, 2015.

G. Arturo, G. Diaz, and B. Khaled, Adaptive Contention Window for Zone-Based Dissemination of Vehicular Traffic, IEEE ICAIT 2012, vol.7593, pp.330-339, 2013.

F. Abdelhak, A. Nadjib, B. Khaled, D. Gladys, and A. Gomez, Backhaul Topology Design and Weighted Max-Min Fair Capacity Allocation in Wireless Mesh Networks, IEEE ICAIT 2012, vol.7593, pp.296-309, 2013.

G. Arturo, G. Diaz, and B. Khaled, How Virtual Police Agents can Help in the Trafic Guidance?, Conférences Internationales avec actes et comité de sélection ?, 2012.

G. Arturo, G. Diaz, and B. Khaled, Toward the Integration of IVC-based Services into ITS Architecture Standards, IEEE GIIS 2012-The 4th Global Information, Infrastructure and Networking Symposium, 2012.

A. Inès, S. Noémie, and G. Diaz, QoS-Aware Component for Cloud Computing, The Ninth International Conference on Autonomic and Autonomous Systems, 2013.

A. Inès, S. Noémie, and G. Diaz, NaaS: QoS-aware Cloud Networking services, The 12th IEEE International Symposium on Network Computing and Applications, pp.22-24, 2013.

A. Inès, D. Gladys, and S. Noémie, QoS-based Network Virtualization to Future Networks: An approach based on QoS network constraints, NoF'13, The 4th International Conference Network of Future, 2013.

, Liste des Publications 66

?. Silviana-juárez, C. , M. Angel, L. Chavez, and G. Diaz, UML Model of a Gateway for the Interconnection of IEEE 1609 and Controller Area Network, 14th international CAN Conference, pp.12-13, 2013.

?. Arslane, H. Cherif, D. Fedoua, K. Boussetta, and G. Diaz, A State of Art of Modern Intelligent Transport Systems, The 2015 International Conference on Advanced Communication Systems and Signal Processing, pp.8-09, 2015.

?. Arslane, H. Cherif, B. Khaled, D. Gladys, and D. Fedoue, A probabilistic convergecast protocol for vehicle to infrastructure communication in ITS architecture, 13th Annual IEEE Consumer Communications and Networking Conference, pp.9-12, 2016.

. Bibliographie, SDN: SOFTWARE-DEFINED NETWORKING: the new norm for networks

, NFV: NETWORK FUNCTION VIRTUALIZATION. white paper

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I. Ayadi, La virtualisation de bout-en-bout pour la gestion des services cloud sous contraintes de qos, Télécom ParisTech, 2014.

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, AGAVE: A LIGHTWEIGHT APPROACH FOR VIABLE END-TO-END IP-BASED QOS SERVICES

Q. Duan, Y. Yan, and A. V. Vasilakos, A survey on Service-Oriented Network Virtualization Toward Convergence of Networking and Cloud Computing, Network and Service Management, vol.9, issue.4, pp.373-392, 2012.

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, Fourth International Conference on the, pp.1-5, 2013.

, Amazon Elastic Compute Cloud (amazon EC2)

, Windows azure: Microsoft's Cloud Platform

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&. Etsi-nfv,

J. Batalle, J. Ferrer-riera, E. Escalona, and J. A. Garcia-espin, On the implementation of nfv over an openflow infrastructure: routing function virtualization, Future Networks and Services, issue.SDN4FNS, pp.1-6, 2013.

G. Monteleone and P. Paglierani, Session border controller virtualization towards" service-defined" networks based on nfv and sdn, Future Networks and Services (SDN4FNS), 2013 IEEE SDN for, pp.1-7, 2013.

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, SP3 : Composants des Services. livrable 3.1-projet ubis

, OpenCloudware Project

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, Cours ATOMS (N. Simoni)

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M. Feridan, M. Moser, and A. Tanner, Building an abstraction layer for management systems integration, Proceedings of the 1st IEEE/IFIP International Workshop on End-toEnd Virtualization and Grid Management (EVGM2007), pp.57-60, 2007.

S. K. Ouanouche, Gestion dynamique de service de bout en bout dans un contexte de mobilité et d'ubiquité: du déploiement au delivery des services, 2011.

Y. Wu, User-Centric session et QoS Dynamique pour une approche intégrée du NGN, 0201.

N. Ornelas, N. Simoni, K. Chen, and A. Boutignon, VPIN: User-session knowledge base for self-management of ambient networks, Mobile Ubiquitous Computing, Systems, Services and Technologies, 2008. UBICOMM'08. The Second International Conference on, pp.122-127, 2008.

R. Nassar, Une architecture convergente pour une continuité et personnalisation de services: aspects architectural et fonctionnel, 2012.

G. A. Lewis, Role of standards in cloud-computing interoperability, 46th Hawaii International Conference on, pp.1652-1661, 2013.

M. Waschke, Cloud-specific standards, pp.289-331, 2012.

, IETF ACT model

, ETSI NFV management and orchestration

F. Galán, A. Sampaio, L. Rodero-merino, I. Loy, V. Gil et al., Service specification in cloud environments based on extensions to open standards, Proceedings of the fourth international ICST conference on communication system software and middleware, p.19, 2009.

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, CIM model

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, FSN OPENCLOUDWARE. LIVRABLE D1.2. T 1.2 MODELE LOGIQUE AVANCÉ, 2013.

, UNIFIED SERVICE DESCRIPTION LANGUAGE XG FINAL REPORT

, OWL-S 1.2 RELEASE

&. ,

, OvS : Open vSwitch

Q. Shen, Vers un contrôle programmable pour le futur internet et le cloud compuitng, vol.63, 2014.

, Floodlight v1.1

S. Srivastava, S. Anmulwar, A. Sapkal, T. Batra, A. K. Gupta et al., Comparative study of various traffic generator tools, Engineering and Computational Sciences (RAECS), pp.1-6, 2014.

, Traffic generator: Mausezahn