DocumentCode
783916
Title
Preserving Video Quality in IPTV Networks
Author
Asghar, Javed ; Le Faucheur, Francois ; Hood, Ian
Author_Institution
Cisco Syst., San Jose, CA
Volume
55
Issue
2
fYear
2009
fDate
6/1/2009 12:00:00 AM
Firstpage
386
Lastpage
395
Abstract
Growing numbers of service providers are implementing video services over IP networks, and discovering the unique challenges of providing a high quality-of-experience (QoE) to subscribers. Delivering consistent QoE in packet-switched networks can be a complex proposition due to the high sensitivity of video traffic to packet loss, as well as to delay and jitter. Preserving video quality in IP Television (IPTV) networks that mostly rely on copper access lines poses an even greater challenge. Service providers need intelligent mechanisms in core and distribution networks to prevent congestion that deteriorates video quality, as well as intelligence between the aggregation networks and IP set-top box (STB) to repair packet losses, speed up channel change times and monitor the quality of the subscriber experience. This paper discusses a series of core and aggregation-layer approaches, collectively referred to as Visual Quality of Experience (VQE) to address these issues. The VQE approach encompasses on-path video connection admission control (CAC) employing Resource ReSerVation Protocol (RSVP) in the core and aggregation layers, and a real-time signaling mechanism operating between the provider aggregation edge and the IP STBs to address packet losses, long channel change times and quality monitoring.
Keywords
IPTV; packet switching; quality of service; signalling protocols; telecommunication channels; telecommunication congestion control; telecommunication traffic; video communication; CAC; IPTV network; RSVP; STB; aggregation-layer approach; channel change time; copper access lines; distribution network; on-path video connection admission control; packet loss; packet-switched network; quality-of-experience; real-time signaling mechanism; resource reservation protocol; set-top box; video quality; video traffic; Admission control; Copper; IP networks; IPTV; Intelligent networks; Jitter; Monitoring; TV; Telecommunication traffic; US Department of Transportation; Call admission control; DSL line errors; IPTV; IPTV quality monitoring; RSVP; channel change time;
fLanguage
English
Journal_Title
Broadcasting, IEEE Transactions on
Publisher
ieee
ISSN
0018-9316
Type
jour
DOI
10.1109/TBC.2009.2019419
Filename
4895266
Link To Document