@InProceedings{ ICT2003,
	author = "Thomas Dreibholz and Avril~J. Smith and John~L. Adams",
	title = "{Realizing a Scalable Edge Device to Meet QoS Requirements for Real-Time Content Delivered to IP Broadband Customers}",
	booktitle = "{Proceedings of the 10th IEEE International Conference on Telecommunications~(ICT)}",
	volume = "2",
	pages = "1133--1139",
	numpages = "7",
	day = "26",
	month = feb,
	year = "2003",
	address = "Papeete/French Polynesia",
	language = "english",
	isbn = "0-7803-7661-7",
	doi = "10.1109/ICTEL.2003.1191595",
	keywords = "Quality of Service~(QoS), Bandwidth Guarantee, Admission Control, Congestion Control, Intelligent Packet Dropping, Edge Node, Security, Implementation Considerations",
	abstract = "{With DSL technology becoming widespread, more and more customers have access to high-speed Internet backbones. Such links not only speed up classical best effort applications but also make new applications like video and audio on demand possible. Unlike best effort applications, these new applications have more requirements for network quality of service, especially an assured bandwidth.
Under the assumption that the link to the customer is the main bottleneck, this paper presents a new simple, scalable edge node approach that has been developed in a cooperation between the University of Essen and British Telecom~(BT). It provides a solution to guaranteeing certain flows, while making others the subject of focused packet discards. While the performance aspect of this new device is currently under research, this paper lays its focus on implementability and especially provides a security concept.}",
	url = "https://www.wiwi.uni-due.de/fileadmin/fileupload/I-TDR/FlowRouting/Paper/EdgeDevice-Paper.pdf",
	url.size = "114142",
	url.md5 = "7c37d41dd417062ba4fd17063d846939",
	url.mime = "application/pdf",
	url.pagesize = "595 x 842 pts (A4)",
	url.checked = "2014-04-02 17:08:16 CEST",
	note = "{ISBN} 0-7803-7661-7"
}