DocumentCode
2717817
Title
A Conceptual Architecture for Adaptation in Remote Desktop Systems Driven by the User Perception of Multimedia
Author
Lubonski, Marcin ; Gay, Valérie ; Simmonds, Andrew
Author_Institution
Univ. of Technol., Sydney, NSW
fYear
2005
fDate
5-5 Oct. 2005
Firstpage
891
Lastpage
895
Abstract
Current thin-client remote desktop systems were designed for data-oriented applications over low-quality LAN links and they do not provide satisfactory end-user performance in enterprise environment for more and more popular graphical and multimedia applications. To improve perception of those applications in thin-client environment we propose architecture of a server-side quality of service (QoS) management component responsible for mapping application QoS requirements into network QoS. We analyze how service differentiation and traffic management techniques combined with user perception monitoring can be used in order to adjust network level resource allocation when performance of multimedia applications in remote desktop environment is not meeting user requirements. Our objective is to provide QoS-aware remote desktop systems which will be able to manage available resources in intelligent manner and meet end-user performance expectations
Keywords
DiffServ networks; computer network management; local area networks; multimedia communication; quality of service; resource allocation; telecommunication traffic; QoS; low-quality LAN links; remote desktop systems; resource allocation; server-side quality of service; service differentiation; thin-client remote desktop systems; traffic management techniques; user perception monitoring; Australia; Environmental management; IP networks; Local area networks; Multimedia systems; Protocols; Quality of service; Resource management; Streaming media; Telecommunication traffic;
fLanguage
English
Publisher
ieee
Conference_Titel
Communications, 2005 Asia-Pacific Conference on
Conference_Location
Perth, WA
Print_ISBN
0-7803-9132-2
Type
conf
DOI
10.1109/APCC.2005.1554191
Filename
1554191
Link To Document