DocumentCode
1691651
Title
Resource adaptation for audio-visual devices in the UPnP QoS architecture
Author
Ditze, Michael ; Bresser, Torsten
Author_Institution
Paderborn Univ., Germany
Volume
2
fYear
2006
Abstract
Distributed multimedia applications increasingly populate audio-visual mobile and desktop devices. Crucial to the success of is the delivery of quality of service (QoS) which often refers to resource reservation on devices and network links. QoS is usually ensured by an appropriate admission control that determines if another request for resources can be granted without interfering already accepted data flows and processing resources. If an AC cannot be processed or proves to be unsatisfactory, proactive counter measures like resource adaptation may decrease the resource requirements of particular data flows. This paper presents a new methodology for resource adaptation in AV devices. It is incorporated into the UPnP QoS architecture and concealed behind a common set of interfaces. An implementation of resource adaptation proves that the resource utilization is optimized and the QoS can be acceptably maintained even in overloaded conditions.
Keywords
audio-visual systems; multimedia communication; quality of service; resource allocation; telecommunication congestion control; telecommunication links; UPnP QoS architecture; admission control; audio-visual device; data flows; desktop device; distributed multimedia application; network links; quality-of-service; resource adaptation; universal plug-play; Admission control; Bandwidth; Communication system traffic control; Counting circuits; Delay effects; Particle measurements; Quality of service; Resource management; Service oriented architecture; Streaming media; End-to-end Quality of Service; Service Oriented Architectures; Universal Plug and Play.;
fLanguage
English
Publisher
ieee
Conference_Titel
Advanced Information Networking and Applications, 2006. AINA 2006. 20th International Conference on
ISSN
1550-445X
Print_ISBN
0-7695-2466-4
Type
conf
DOI
10.1109/AINA.2006.287
Filename
1620436
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