Descriptif
Several major trends in communication systems will significantly impact citizens lifestyles and enterprises organizations in the near future. Among them one can cite the progressive merge of the real and digital worlds through the Internet of Things, the new generation of cloud solutions that will spread out the datacentres to merge with network infrastructure and even personal devices that will become an integral part of the cloud, future content distribution systems and in particular Information Centric Networks, and on top of it the autonomic processing of the ever growing volumes of content (in particular generated by the Internet of Things) in order to transform data into information and knowledge to facilitate decision taken and to automate processes. The present lecture presents a unified view of these and other trends, focusing in their interactions as enablers for future dynamically orchestrated services and applications. Future related technologies and architectures will be presented, as well as their impact on existing networks and systems (e.g. introducing the need for the 5G of mobile networks). Several use-cases of usage in vertical markets, like energy and health will be described. The interoperability of heterogeneous systems like smart grids, smart cities and smart vehicles as enablers for future transversal applications will be described, together with possible positioning of the various involved players.Objectifs pédagogiques
1- Major trends in Information and Communication systems and marketsa. Holistic view
b. Synergies among the trends
2- Content distribution
a. Present OTT approach and carriers positioning
b. Akamai like CDN networks
c. Main networking enablers of OTTs: Google, FaceBook, YouTube and alikes
d. Telco-CDN, new architectures and inter-domain issues
e. Evolution of network equipment
f. Towards CCN/ICN, from research to deployment, which challenges?
g. Design approaches for federation and for content location and storage
3- Cloud Computing
a. A short overview on IaaS/PaaS/SaaS
b. Main technological challenges: end-to-end QoE/QoS, Security, Reversibility, Interoperability, Policies Compliance
c. Telco-cloud, new jointly designed network-cloud architectures
i. Which distribution of the intelligence
ii. VPN and cloud services convergence
d. Spreading of the cloud to network and edge devices, beyond mobile cloud
e. Services discovery and composition, towards a partial outsourcing of business processes
f. Which role for network function virtualization? Which role for Software Defined Networks (SDN)?
g. On top of the cloud, Big Data as a Service
4- Internet of Things
a. Definition and visions, far beyond M2M.
b. Diffusion into energy, health, environment, smart cities, systems
c. Technologies and architectures, beyond wireless sensor and actuators networks
i. Technological challenges
ii. IP-based network protocols: 6lowpan, RPL (routing), QoS, CoAP,
iii. IoT network architecture
d. Self-organization of IoT based systems, self-discovery and composition of services
e. Standardization issues
f. Example of usage case: Smart grid and IoT
g. IoT service providers.
h. IoT as source of content. Big Data and IoT.
5- Mobility
a. A short overview on 4G architecture
b. Evolved Packet Core architecture
c. Generalized mobility in the context of content distribution, cloud and IoT
d. Technical challenges and possible functional and physical architectures
e. Why do we need the 5G?
6- Interactions between IoT, cloud and content distribution
a. Examples of services and use cases, a focus on the smart grid and on mobile health (mHealth)
b. Architectures and Distribution of the intelligence to enable transversal applications to heterogeneous systems like smart grid, smart cities and smart vehicles.
c. Major technical challenges
d. Positioning of the various players
7- Conclusions and perspectives.
20 heures en présentiel (20 blocs ou créneaux)
effectifs minimal / maximal:
10/60Format des notes
Numérique sur 20Littérale/grade européenPour les étudiants du diplôme Diplôme d'ingénieur
La note obtenue rentre dans le calcul de votre GPA.
Programme détaillé
1- Major trends in Information and Communication systems and marketsa. Holistic view
b. Synergies among the trends
2- Content distribution
a. Present OTT approach and carriers positioning
b. Akamai like CDN networks
c. Main networking enablers of OTTs: Google, FaceBook, YouTube and alikes
d. Telco-CDN, new architectures and inter-domain issues
e. Evolution of network equipment
f. Towards CCN/ICN, from research to deployment, which challenges?
g. Design approaches for federation and for content location and storage
3- Cloud Computing
a. A short overview on IaaS/PaaS/SaaS
b. Main technological challenges: end-to-end QoE/QoS, Security, Reversibility, Interoperability, Policies Compliance
c. Telco-cloud, new jointly designed network-cloud architectures
i. Which distribution of the intelligence
ii. VPN and cloud services convergence
d. Spreading of the cloud to network and edge devices, beyond mobile cloud
e. Services discovery and composition, towards a partial outsourcing of business processes
f. Which role for network function virtualization? Which role for Software Defined Networks (SDN)?
g. On top of the cloud, Big Data as a Service
4- Internet of Things
a. Definition and visions, far beyond M2M.
b. Diffusion into energy, health, environment, smart cities, systems
c. Technologies and architectures, beyond wireless sensor and actuators networks
i. Technological challenges
ii. IP-based network protocols: 6lowpan, RPL (routing), QoS, CoAP,
iii. IoT network architecture
d. Self-organization of IoT based systems, self-discovery and composition of services
e. Standardization issues
f. Example of usage case: Smart grid and IoT
g. IoT service providers.
h. IoT as source of content. Big Data and IoT.
5- Mobility
a. A short overview on 4G architecture
b. Evolved Packet Core architecture
c. Generalized mobility in the context of content distribution, cloud and IoT
d. Technical challenges and possible functional and physical architectures
e. Why do we need the 5G?
6- Interactions between IoT, cloud and content distribution
a. Examples of services and use cases, a focus on the smart grid and on mobile health (mHealth)
b. Architectures and Distribution of the intelligence to enable transversal applications to heterogeneous systems like smart grid, smart cities and smart vehicles.
c. Major technical challenges
d. Positioning of the various players
7- Conclusions and perspectives.
