Contributions to the future media internet using service-oriented architectures
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Chair / Department / Institute
Universitat Politècnica de Catalunya. Departament d'Enginyeria Telemàtica
Document typeDoctoral thesis
Data de defensa2012-09-26
PublisherUniversitat Politècnica de Catalunya
Rights accessOpen Access
Except where otherwise noted, content on this work
is licensed under a Creative Commons license
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Attribution-NonCommercial 3.0 Spain
Abstract
Nowadays, video streaming applications are the most bandwidth-hungry applications and this tendency is envisaged to grow
exponentially. With the proliferation of multimedia capable devices, multimedia services have to deal with heterogeneous
environments where very different types of terminals wish to receive content anywhere and anytime. This situation motivates
the appearance of multimedia services that adapt contents to the specific context of users. These services can benefit from
the use of different technologies for content delivery (e.g. Peer-to-Peer and Network Coding), media signalling (e.g. SIP and
P2P protocols), media representation (e.g. MPEG-7 and MPEG-21) or multimedia scalable and robust codification (e.g.
Multiple Description Coding and Scalable Video Coding). However, current Internet architecture is based on a rigid layered
model (TCP/IP-based) following the, no longer valid, end-to-end argument, which makes difficult to introduce new
functionalities efficiently. To solve this, Service Oriented Architectures (SOA) principles seem to fit in the proposal of new
architectures for a more flexible Future Internet based on services that can be invoked when and where necessary.
The objectives of this PhD. Thesis are exploring and validating different mechanisms for enabling Future Media Internet
communications. To achieve this, we apply the SOA paradigm to provide efficient context-aware multimedia communications
in the Future Internet.
This work proposes solutions to enable the seamless provisioning of multimedia services in the Future Internet by means of
context-aware service discovery and composition processes which are integrated in a novel service-oriented clean-slate
architecture. One goal is to provide adapted and personalized services, dealing with high dynamic and heterogeneous
environments. For this reason, this thesis includes research on novel media coding techniques (Multiple Description Coding,
Scalable Video Coding) and distribution techniques (Peer-to-Peer, Network Coding) that can be applied to achieve seamless
media communications. Moreover, context-aware service composition will address the requirements of media services (and
any service in general), access methods, devices and interactions.
This work presents a radical view of the Future Internet, where the necessary functionalities for accomplishing
communications, in user devices, in the network and at all levels are considered as services. Services are not fixed but
dynamically composed where and when necessary, with respect to user service requirements, network transfer capabilities
and surrounding context in the user and the network environments.
Composition of basic network-level services calls for a clean-slate approach to the Internet, while composition of higher level
(transport and application) services prompts for an evolutionary approach. Nevertheless, composition of communication
services manifests itself as a revolutionary way of looking communications and building communication systems.
This PhD. Thesis introduces two main architectural innovations clearly beyond current state of the art. Firstly, a Service-
Oriented framework able to deal with (existing) functionality at all levels (connectivity, transport, application) by considering the
provided service and not the technology behind the functionality. All these service functionalities can be seen as services
thanks to suitable service-oriented abstractions that allow including existing functionality/protocols as well as new
functionality in a flexible way. Secondly, we present a novel service-oriented clean-slate architecture generalizing Information-
Centric Networking (ICN) approaches. This work would propose the first clean-slate architecture completely aligned with the
work done within the ISO Future Networks working group
CitationGonzález Cela, A.J. Contributions to the future media internet using service-oriented architectures. Tesi doctoral, UPC, Departament d'Enginyeria Telemàtica, 2012. DOI 10.5821/dissertation-2117-94693 . Available at: <http://hdl.handle.net/2117/94693>
DLB. 34468-2012
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