, Les architectures à base de microservices appliquées aux réseaux 97

U. .. Ndn, 98 6.3.1 Définitions communes et contraintes de conceptions, p.101

.. .. Discussion,

.. .. Conclusion,

. .. , (a)(c)(e) et le routeur d'accès R3 (b)(d)(f) pour chaque scénario d'attaque, p.61

. .. Effet, , p.62

. .. Effet, , p.63

, Projection des mesures sur les deux premières composantes principales (les flèches continues représentent la projection moyenne pour chaque scénario et les flèches en pointillées montrent la direction lorsque l'intensité de l'attaque augmente), p.65

N. Îlot and . .. Ndn, , p.74

, Structure interne

, Diagramme de séquence de la communication entre les gateways, p.77

, Nombre d'occurrences de chaque champ de l'entête HTTP pour chaque extension de fichier avec Firefox

, Similarité entre le data set de requêtes HTTP de Firefox et Chrome avec différentes combinaisons de champs à exclure

, Débit de l'îlot NDN et utilisation CPU du routeur NDN pour des transferts concurrents de fichiers

, Temps nécessaire pour un client pour télécharger un fichier avec un lien de 10

, Mbps avec et sans les gateways

, Effet du cache NDN sur le temps de téléchargement d'une image PNG de 100 KBytes 86

, Répartition des ressources HTTP et HTTPS pour les 1000 premiers sites web, vol.87

, Valeurs moyennes du temps de chargement des pages d'accueil des sites web les plus populaires en utilisant ou non les gateways

, Valeurs médianes du temps de chargement des pages d'accueil des sites web les plus populaires en utilisant ou non les gateways

, Nombre de sites webs mesurés et leur taux d'erreur en fonction du nombre d'objets HTTP par page

, Distribution des 1000 premiers sites HTTP selon le taux d'éléments récupérés, p.90

, Nombre d'objets recenséset leur taux d'erreur en fonction du type d'objet HTML 91

, Nombre d'objets recensés et leur taux d'erreur en fonction du top-level domain, p.91

, Exemple de chaîne de microservices équivalente à un noeud NFD utilisant la stratégie multicast

E. and .. .. ,

, Procédure de mise à l'échelle d'un module Signature Verifier lorsque l'on suit les contraintes de relation

, Possible procédure de mise à l'échelle d'un module Backward Router, p.106

, Débit et utilisation CPU du réseau durant un événement de scaling, p.112

, Scénario pour une attaque par empoisonnement de cache

, Valeur du cache hit dans le temps durant une attaque par empoisonnement de cache115 1.1 Format de paquet pour CCNx 1.0 [MSUW15]

, Exemple de patch basé sur les informations de la PIT

, Exemple de patch basé sur les informations de la FIB

, Valeurs les plus communes pour quatre des champs des requêtes envoyées par Firefox 81 5.2 Valeurs les plus communes pour quatre des champs des requêtes envoyées par Chrome

». .. Exemple-d'un-message-«-add_face,

». .. Exemple-d'une-réponse, , p.108

, Exemple de message pour notifier le statut du cache d'un Content Store, p.109

. Bibliographie-;-gergely, M. Acs, P. Conti, C. Gasti, G. Ghali et al., Cache privacy in named-data networking, Distributed Computing Systems (ICDCS), pp.41-51, 2013.

B. Ahlgren, C. Dannewitz, C. Imbrenda, D. Kutscher, and B. Ohlman, A survey of information-centric networking, IEEE Communications Magazine, vol.50, issue.7, 2012.

. Eslam-g-abdallah, S. Hossam, M. Hassanein, and . Zulkernine, A survey of security attacks in information-centric networking, IEEE Communications Surveys & Tutorials, vol.17, issue.3, pp.1441-1454, 2015.

S. Arianfar, . Koponen, S. Raghavan, and . Shenker, On preserving privacy in information-centric networks, Proc of SIGCOMM Workshop on ICN, 2011.

P. Amm-+-13]-alexander-afanasyev, I. Mahadevan, E. Moiseenko, L. Uzun, and . Zhang, Interest flooding attack and countermeasures in named data networking, IFIP Networking Conference, pp.1-9, 2013.

A. Afanasyev, J. Shi, B. Zhang, L. Zhang, I. Moiseenko et al., Nfd developer's guide, 2014.

A. Afanasyev, J. Shi, B. Zhang, L. Zhang, I. Moiseenko et al., Nfd developer's guide, 2015.

M. Aamir and S. Zaidi, Denial-of-service in content centric (named data) networking : a tutorial and state-of-the-art survey, vol.8, pp.2037-2059, 2015.

G. Bianchi, A. Detti, A. Caponi, and N. B. Melazzi, Check before storing : What is the performance price of content integrity verification in lru caching ?, ACM SIGCOMM Computer Communication Review, vol.43, issue.3, pp.59-67, 2013.

D. K. Van-jacobson, N. H. Smetters, J. D. Briggs, M. F. Thornton, R. L. Plass et al., Networking named content, 2009.

J. Burke, Video streaming over named data networking. E-LETTER, 2013.

A. Compagno, M. Conti, P. Gasti, and G. Tsudik, Poseidon : Mitigating interest flooding ddos attacks in named data networking, Local Computer Networks (LCN), 2013 IEEE 38th Conference on, pp.630-638, 2013.

D. Margaret-chiosi, P. Clarke, A. Willis, J. Reid, M. Feger et al., Network functions virtualisation : An introduction, benefits, enablers, challenges and call for action, SDN and OpenFlow World Congress, vol.48, 2012.

A. Chaabane, M. A. Emiliano-de-cristofaro, E. Kaafar, and . Uzun, Privacy in content-oriented networking : Threats and countermeasures, CfNoICN] Design Choices, Differences for NDN, and CCNx 1.0 Implementations of Information-Centric Networking, vol.43, pp.25-33, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00939179

G. Carofiglio, M. Gallo, and L. Muscariello, ICP : Design and evaluation of an Interest control protocol for content-centric networking, IEEE INFOCOM Workshops, pp.304-309, 2012.

M. Conti, P. Gasti, and M. Teoli, A lightweight mechanism for detection of cache pollution attacks in named data networking, Computer Networks, vol.57, issue.16, pp.3178-3191, 2013.

, Centric Networking (ICN) Research Challenges

. Cisco and . Cisco, Visual Networking Index : Forecast and Trends, pp.2017-2022

V. Cerf and R. Kahn, A protocol for packet network intercommunication, IEEE Transactions on Communications, vol.22, issue.5, pp.637-648, 1974.

M. S. Carlos, C. E. Cabral, M. Rothenberg, and . Magalhães, Mini-ccnx : Fast prototyping for named data networking, Proceedings of the 3rd ACM SIGCOMM Workshop on Information-centric Networking, ICN '13, pp.33-34, 2013.

L. Deng, Y. Gao, Y. Chen, A. Kuzmanovic-;-kun-ding, Y. Liu et al., Cooperative detection and protection for interest flooding attacks in named data networking, International Journal of Communication Systems, vol.52, issue.5, pp.1968-1980, 2008.

N. Dmitry and S. Manfred, On micro-services architecture, International Journal of Open Information Technologies, vol.2, issue.9, 2014.

S. Dibenedetto and C. Papadopoulos, Mitigating poisoned content with forwarding strategy, The third Workshop on Name-Oriented Mobility (NOM)

, IEEE, 2016.

N. Dukkipati, Rate Control Protocol (RCP) : Congestion control to make flows complete quickly, 2008.

Y. Seyed-kaveh-fayazbakhsh, A. Lin, A. Tootoonchian, T. Ghodsi, B. Koponen et al., Less pain, most of the gain : Incrementally deployable icn, Proceedings of the ACM SIGCOMM 2013 Conference on SIGCOMM, SIGCOMM '13, pp.147-158, 2013.

M. Fowler-;-pedro-henrique, V. Guimaraes, L. Henrique, G. Ferraz, J. V. Torres et al., Experimenting Content-Centric Networks in the future internet testbed environment, Martine Lenders, Hauke Petersen, and Matthias Wählisch. Ndn, coap, and mqtt : A comparative measurement study in the iot, pp.1383-1387, 2013.

C. Gündo?an, P. Kietzmann, C. Thomas, M. Schmidt, and . Wählisch, Hopp : Publish-subscribe for the constrained iot, 2018.

C. Gündo?an, P. Kietzmann, C. Thomas, M. Schmidt, and . Wählisch, Hopp : Robust and resilient publish-subscribe for an information-centric internet of things, 2018.

C. Gündo?an, P. Kietzmann, C. Thomas, M. Schmidt, and . Wählisch, Icn-lowpan : Header compression for the constrained iot, 2018.

, Network Functions Virtualisation Industry Specification Group. Network Functions Virtualisation (NFV). White paper, ETSI, 2013.

, Network Functions Virtualisation Industry Specification Group. Network Functions Virtualisation (NFV) ; Management and Orchestration. Group Specification GS NFV-MAN 001, 2014.

C. Ghali, G. Tsudik, and E. Uzun, Needle in a haystack : Mitigating content poisoning in named-data networking, Proceedings of NDSS Workshop on Security of Emerging Networking Technologies (SENT), 2014.

C. Ghali, G. Tsudik, and E. Uzun, Network-layer trust in named-data networking, ACM SIGCOMM Computer Communication Review, vol.44, issue.5, pp.12-19, 2014.

P. Gasti, G. Tsudik, E. Uzun, and L. Zhang, Nlsr : named-data link state routing protocol, Computer Communications and Networks (ICCCN), 2013 22nd International Conference on, pp.15-20, 2013.

B. Han, V. Gopalakrishnan, L. Ji, and S. Lee, Network function virtualization : Challenges and opportunities for innovations, IEEE Communications Magazine, vol.53, issue.2, pp.90-97, 2015.

. Van-jacobson, A new way to look at networking, google tech talk, 2006.

S. Junghwan, L. Munyoung, K. Ted-;-van-jacobson, D. K. Smetters, H. Nicholas et al., Smic : Subflow-level multi-path interest control for information centric networking, Proceedings of the 5th ACM Conference on Information-Centric Networking (ACM ICN'18), pp.1-6, 2009.

D. K. Van-jacobson, J. D. Smetters, . Thornton, F. Michael, . Plass et al., Networking named content, Proceedings of the 5th international conference on Emerging networking experiments and technologies, pp.1-12, 2009.

, A data-oriented (and beyond) network architecture, ACM SIGCOMM Computer Communication Review, vol.37, pp.181-192, 2007.

A. Karami and M. Guerrero-zapata, An anfis-based cache replacement method for mitigating cache pollution attacks in named data networking, Computer Networks, vol.80, pp.51-65, 2015.

D. Kim, S. Nam, J. Bi, and I. Yeom, Efficient content verification in named data networking, Proceedings of the 2nd International Conference on Information-Centric Networking, pp.109-116, 2015.

M. Król and I. Psaras, Nfaas : named function as a service, Proceedings of the 4th ACM Conference on Information-Centric Networking, pp.134-144

K. Khanda, D. Salikhov, K. Gusmanov, M. Mazzara, and N. Mavridis, Microservice-based iot for smart buildings, Advanced Information Networking and Applications Workshops (WAINA), 2017 31st International Conference on, pp.302-308, 2017.

T. Lauinger, Security & scalability of content-centric networking, 2010.

Y. Li and M. Chen, Software-defined network function virtualization : A survey, IEEE Access, vol.3, pp.2542-2553, 2015.

Y. Liu, J. Geurts, J. Point, S. Lederer, B. Rainer et al., Dynamic adaptive streaming over ccn : A caching and overhead analysis, Communications (ICC), 2013 IEEE International Conference on, pp.3629-3633, 2013.

Z. Li, K. Liu, Y. Zhao, and Y. Ma, Mapit : an enhanced pending interest table for ndn with mapping bloom filter, IEEE Communications Letters, vol.18, issue.11, pp.1915-1918, 2014.

A. Levcovitz, R. Terra, and M. Valente, Towards a technique for extracting microservices from monolithic enterprise systems, 2016.

C. Liu, W. Ryen, S. White, and . Dumais, Understanding web browsing behaviors through weibull analysis of dwell time, Proceedings of the 33rd international ACM SIGIR conference on Research and development in information retrieval, pp.379-386, 2010.

M. Hoang-long-mai, G. Aouadj, D. Doyen, X. Kondo, T. Marchal et al., Implementation of Content Poisoning Attack Detection and Reaction in Virtualized NDN Networks, ICIN 2018 -21st Conference on Innovation in Clouds, Internet and Networks, vol.3, 2018.

M. Mahdian, S. Arianfar, J. Gibson, and D. Oran, Mircc : Multipathaware icn rate-based congestion control, Proceedings of the 3rd ACM Conference on Information-Centric Networking, pp.1-10, 2016.

M. E. Xavier-marchal, B. Aoun, W. Mathieu, T. Mallouli, G. Cholez et al., Alain Ploix, and Edgardo Montes de Oca. A virtualized and monitored NDN infrastructure featuring a NDN/HTTP gateway, Proceedings of the 3rd ACM Conference on Information-Centric Networking, ICN '16, pp.225-226, 2016.

+. Martins, M. Ahmed, C. Raiciu, V. Olteanu, M. Honda et al., Clickos and the art of network function virtualization, Proceedings of the 11th USENIX Conference on Networked Systems Design and Implementation, pp.459-473, 2014.

X. Marchal, T. Cholez, and O. Festor, PIT matching from unregistered remote Faces : a critical NDN vulnerability, 3rd ACM Conference on Information-Centric Networking (ACM-ICN'16), 2016.
URL : https://hal.archives-ouvertes.fr/hal-01386809

X. Marchal, T. Cholez, and O. Festor, Server-side performance evaluation of NDN, 3rd ACM Conference on Information-Centric Networking (ACM-ICN'16), pp.148-153, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01386777

X. Marchal, T. Cholez, and O. Festor, µNDN : an Orchestrated Microservice Architecture for Named Data Networking, ACM-ICN'18 -5th ACM Conference on Information-Centric Networking, p.12, 2018.

M. E. Xavier-marchal, B. Aoun, W. Mathieu, T. Mallouli, G. Cholez et al., Alain Ploix, and Edgardo Montes De Oca. A virtualized and monitored NDN infrastructure featuring a NDN/HTTP gateway, 3rd ACM Conference on Information-Centric Networking (ACM-ICN'16), 2016.

M. E. Xavier-marchal, B. Aoun, T. Mathieu, G. Cholez, W. Doyen et al., Leveraging NFV for the deployment of NDN : Application to HTTP traffic transport, NOMS 2018 -IEEE/IFIP Network Operations and Management Symposium, 2018.

A. Madhavapeddy, R. Mortier, C. Rotsos, D. Scott, B. Singh et al., Unikernels : Library operating systems for the cloud, MMR + 13, vol.48, pp.461-472, 2013.

N. T. Hoang-long-mai, G. Nguyen, A. Doyen, R. Ploix, and . Cogranne, On the readiness of ndn for a secure deployment : The case of pending interest table, IFIP International Conference on Autonomous Infrastructure, Management and Security, pp.98-110, 2016.

L. Hoang, T. Mai, G. Nguyen, R. Doyen, W. Cogranne et al., Towards a security monitoring plane for named data networking and its application against content poisoning attack, NOMS 2018-2018 IEEE/IFIP Network Operations and Management Symposium, pp.1-9, 2018.

I. Moiseenko and D. Oran, Tcp/icn : Carrying tcp over content centric and named data networks, 2016 conference on 3rd ACM Conference on InformationCentric Networking, pp.112-121, 2016.

J. Msg-+-16]-rashid-mijumbi, J. Serrat, N. Gorricho, F. D. Bouten, R. Turck et al., Network function virtualization : State-of-the-art and research challenges, IEEE Communications Surveys & Tutorials, vol.18, issue.1, pp.236-262, 2016.

I. Moiseenko, M. Stapp, and D. Oran, Communication patterns for web interaction in named data networking, 1st international conference on Information-centric networking, pp.87-96, 2014.

M. Mosko, I. Solis, E. Uzun, and C. Wood,

P. Center-;-abedelaziz-mohaisen, X. Zhang, M. Schuchard, H. Xie, and Y. Kim, Protecting access privacy of cached contents in information centric networks, Proceedings of the 8th ACM SIGSAC symposium on Information, computer and communications security, pp.173-178, 2013.

R. Tan-n-nguyen, G. Cogranne, F. Doyen, and . Retraint, Detection of interest flooding attacks in named data networking using hypothesis testing, Information Forensics and Security (WIFS), pp.1-6, 2015.

. Ndn-team,

, Hybrid Information-Centric Networking

N. Ntuli and S. Han, Detecting router cache snooping in named data networking, ICT Convergence (ICTC), 2012 International Conference on, pp.714-718, 2012.

X. +-17]-tan-nguyen, G. Marchal, and . Doyen, Thibault Cholez, and Rémi Cogranne. Content Poisoning in Named Data Networking : Comprehensive Characterization of real Deployment, 15th IFIP/IEEE International Symposium on Integrated Network Management (IM2017), pp.72-80, 2017.

X. N. Nguyen, D. Saucez, and T. Turletti, Efficient caching in content-centric networks using openflow, 2013 IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS), pp.67-68, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00790002

S. Oueslati, J. Roberts, and N. Sbihi, Flow-aware traffic control for a Content-Centric Network, Proceedings of IEEE INFOCOM 2012, pp.2417-2425, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01229406

D. Perino, M. Gallo, R. Laufer, Z. B. Houidi, and F. Pianese, A programmable data plane for heterogeneous nfv platforms, 2016 IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS), pp.77-82, 2016.

, Named Data Networking Next Phase (NDN-NP) Proposal

X. Qiao, G. Nan, Y. Peng, L. Guo, J. Chen et al., Ccnxtomcat : An extended web server for content-centric networking, Journal of Network and Computer Applications, vol.50, pp.276-296, 2014.

C. Qxg-+-14]-wei-quan, J. Xu, H. Guan, L. A. Zhang, and . Grieco, Scalable name lookup with adaptive prefix bloom filter for named data networking, IEEE Communications Letters, vol.18, issue.1, pp.102-105, 2014.

R. Ravindran, A. Chakraborti, S. O. Amin, A. Azgin, and G. Wang, 5g-icn : Delivering icn services over 5g using network slicing, IEEE Communications Magazine, vol.55, issue.5, pp.101-107, 2017.

C. Richardson, Microservice architecture, 2017.

D. Rossi and G. Rossini, Caching performance of content centric networks under multi-path routing (and more). Relatório técnico, 2011.
URL : https://hal.archives-ouvertes.fr/hal-02278646

I. Ribeiro, A. Rocha, C. Albuquerque, and F. Guimaraes, On the possibility of mitigating content pollution in content-centric networking, Local Computer Networks (LCN), 2014 IEEE 39th Conference on, pp.498-501, 2014.

A. Rahman, D. Trossen, D. Kutscher, and R. Ravindran, Deployment Considerations for Information-Centric Networking, 2018.

S. Salsano, N. Blefari-melazzi, A. Detti, G. Morabito, and L. Veltri, Information centric networking over sdn and openflow : Architectural aspects and experiments on the ofelia testbed, Computer Networks, vol.57, issue.16, pp.3207-3221, 2013.

C. Semantics,

Y. Sun, K. Seyed, Y. Fayaz, V. Guo, Y. Sekar et al., Trace-driven analysis of icn caching algorithms on video-ondemand workloads, Proceedings of the 10th ACM International on Conference on Emerging Networking Experiments and Technologies, CoNEXT '14, pp.363-376, 2014.

S. Signorello, A multifold approach to address the security issues of stateful forwarding mechanisms in Information-Centric Networks. (Une approche multidimensionnelle pour aborder les problèmes de sécurité des mécanismes d'acheminement à états dans les réseaux orientés contenus), 2018.
URL : https://hal.archives-ouvertes.fr/tel-01883287

M. Sifalakis, B. Kohler, C. Scherb, C. Tschudin-;-mauro-sardara, L. Muscariello et al., Virtualized icn (vicn) : Towards a unified network virtualization framework for icn experimentation, Proceedings of the 4th ACM Conference on Information-Centric Networking, ICN '17, pp.109-115, 2014.

M. Sardara, L. Muscariello, and A. Compagno, A transport layer and socket api for (h) icn : Design, implementation and performance analysis, Proceedings of the 5th ACM Conference on Information-Centric Networking (ACM ICN'18), 2018.

W. So, A. Narayanan, D. Oran, M. Stapp-;-wentao, J. Shang et al., Named Data Networking on a router : forwarding at 20gbps and beyond, Computer Communications Workshops (INFOCOM WKSHPS), 2013 IEEE Conference on, vol.43, pp.399-404, 2013.

V. Sourlas, L. Tassiulas, I. Psaras, and G. Pavlou, Information resilience through user-assisted caching in disruptive content-centric networks, IFIP Networking Conference (IFIP Networking), pp.1-9, 2015.

H. Salah, J. Wulfheide, and T. Strufe, Coordination supports security : A new defence mechanism against interest flooding in ndn, Local Computer Networks (LCN), 2015 IEEE 40th Conference on, pp.73-81, 2015.

G. Toffetti, S. Brunner, M. Blöchlinger, F. Dudouet, and A. Edmonds, An architecture for self-managing microservices, Proceedings of the 1st International Workshop on Automated Incident Management in Cloud, AIMC '15, pp.19-24, 2015.

J. Tang, Z. Zhang, Y. Liu, and H. Zhang, Identifying interest flooding in named data networking, Green Computing and Communications (GreenCom), 2013 IEEE and Internet of Things (iThings/CPSCom), IEEE International Conference on and IEEE Cyber, pp.306-310, 2013.

T. Ueda, T. Nakaike, and M. Ohara, Workload characterization for microservices, Workload Characterization (IISWC), pp.1-10, 2016.

F. A. Niels-lm-van-adrichem and . Kuipers, Ndnflow : software-defined named data networking, Network Softwarization (NetSoft), 2015 1st IEEE Conference on, pp.1-5, 2015.

C. Sunshine-vinton-cerf and Y. Dalal, Rfc 675 : Specification of internet transmission control program

M. Vahlenkamp, F. Schneider, D. Kutscher, and J. Seedorf, Enabling information centric networking in ip networks using sdn, Future Networks and Services (SDN4FNS), 2013 IEEE SDN for, pp.1-6, 2013.

. +-12]-sen, J. Wang, J. Bi, X. Wu, L. Yang et al., On adapting http protocol to content centric networking, 7th International Conference on Future Internet Technologies, pp.1-6, 2012.

K. Wang, J. Chen, H. Zhou, Y. Qin, and H. Zhang, Modeling denial-of-service against pending interest table in named data networking, International Journal of Communication Systems, vol.27, issue.12, pp.4355-4368, 2014.

Y. Wang, T. Pan, Z. Mi, H. Dai, X. Guo et al., Namefilter : Achieving fast name lookup with low memory cost via applying two-stage bloom filters, INFOCOM, pp.95-99, 2013.

G. White and G. Rutz, Content Delivery With Content Centric Networking, vol.02, 2016.

M. Wählisch, C. Thomas, M. Schmidt, and . Vahlenkamp, Backscatter from the data plane-threats to stability and security in information-centric network infrastructure, Computer Networks, vol.57, issue.16, pp.3192-3206, 2013.

K. Wang, H. Zhou, Y. Qin, J. Chen, and H. Zhang, Decoupling malicious interests from pending interest table to mitigate interest flooding attacks, Globecom Workshops (GC Wkshps), pp.199-212, 2013.

H. Xu, Z. Chen, R. Chen, and J. Cao, Live streaming with content centric networking, Networking and Distributed Computing (ICNDC), 2012.

, Third International Conference on, pp.1-5, 2012.

Y. +-16]-yonghui-xin, W. Li, W. Wang, X. Li, and . Chen, A novel interest flooding attacks detection and countermeasure scheme in ndn, Global Communications Conference (GLOBECOM), pp.1-7, 2016.

G. Xylomenos, N. Christopher, . Ververidis, A. Vasilios, N. Siris et al., A survey of information-centric networking research, IEEE Communications Surveys and Tutorials, vol.16, issue.2, pp.1024-1049, 2014.

M. Xie, I. Widjaja, and H. Wang, Enhancing cache robustness for content-centric networking, INFOCOM, 2012 Proceedings IEEE, pp.2426-2434, 2012.

H. Yuan and P. Crowley, Performance measurement of name-centric content distribution methods, Proceedings of the 2011 ACM/IEEE Seventh Symposium on Architectures for Networking and Communications Systems, pp.223-224, 2011.

H. Yuan and P. Crowley, Experimental evaluation of content distribution with ndn and http, INFOCOM, 2013 Proceedings IEEE, pp.240-244, 2013.

H. Yuan, T. Song, and P. Crowley, Scalable NDN forwarding : Concepts, issues and principles, Computer Communications and Networks (ICCCN), 21st International Conference on, pp.1-9, 2012.

L. Zhang, A. Afanasyev, J. Burke, V. Jacobson, P. Crowley et al., Named Data Networking, ACM SIGCOMM Computer Communication Review, vol.44, issue.3, pp.66-73, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01182997

G. Zhang, Y. Li, and T. Lin, Caching in information centric networking : A survey, Computer Networks, vol.57, issue.16, pp.3128-3141, 2013.

M. Zhang, H. Luo, and H. Zhang, A survey of caching mechanisms in information-centric networking, IEEE Communications Surveys & Tutorials, vol.17, issue.3, pp.1473-1499, 2015.

, Cette thèse utilise 123 références