Scalable Media Coding Enabling Content-Aware Networking

Scalable Media Coding Enabling Content-Aware Networking

Increasingly popular multimedia services are expected to play a dominant role in the future of the Internet. In this context, it is essential that content-aware networking (CAN) architectures explicitly address the efficient delivery and processing of multimedia content. This article proposes the ad...

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Veröffentlicht in:IEEE multimedia 2013-04, Vol.20 (2), p.30-41
Hauptverfasser: Grafl, M., Timmerer, C., Hellwagner, H., Xilouris, G., Gardikis, G., Renzi, D., Battista, S., Borcoci, E., Negru, D.
Format: Magazinearticle
Sprache:eng
Schlagworte:
Buffers
Caching
Coding
Computer Science
content-aware buffering
content-aware networking
Content-based retrieval
Encoding
in-network adaptation
Internet
Media
Multimedia
multimedia applications
multimedia services
Networking and Internet Architecture
Proposals
Quality of service
Receivers
scalable media coding
Static VAr compensators
Streaming media
Streams
Unicast
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Zusammenfassung:Increasingly popular multimedia services are expected to play a dominant role in the future of the Internet. In this context, it is essential that content-aware networking (CAN) architectures explicitly address the efficient delivery and processing of multimedia content. This article proposes the adoption of a content-aware approach into the network infrastructure, thus making it capable of identifying, processing, and manipulating media streams and objects in real time to maximize quality of service (QoS) and experience (QoE). Our proposal is built on the exploitation of scalable media coding technologies within such a content-aware networking environment. This discussion is based on four representative use cases for media delivery (unicast, multicast, peer-to-peer, and adaptive HTTP streaming) and reviews CAN challenges, specifically flow processing, caching/buffering, and QoS/QoE management.
ISSN:1070-986X
1941-0166
DOI:10.1109/MMUL.2012.57