DocumentCode
1125138
Title
AQUILA: adaptive resource control for QoS using an IP-based layered architecture
Author
Engel, Thomas ; Granzer, Hermann ; Koch, Bert F. ; Winter, Martin ; Sampatakos, Petros ; Venieris, Iakovos S. ; Hussmann, Heinrich ; Ricciato, Fabio ; Salsano, Stefano
Author_Institution
Networks & Multimedia Commun. Dept., Siemens Corporate Technol., Munich, Germany
Volume
41
Issue
1
fYear
2003
fDate
1/1/2003 12:00:00 AM
Firstpage
46
Lastpage
53
Abstract
Support for quality of service is an essential component of the next-generation Internet. The European research project AQUILA is committed to defining a DiffServ-based architecture for delivering on-demand QoS to requesting applications. Focal characteristics of the proposed solution are backward compatibility to the existing Internet and scalability to very large networks. To achieve such goals, AQUILA implements an overlaid distributed control layer, the resource control layer, implementing a novel mechanism for dynamic control of intradomain resources, the dynamic resource pool. On the interdomain aspects, the AQUILA architecture extends the BGRP framework for the aggregation of interdomain reservations to overcome scalability issues. This article describes the general AQUILA architecture, with a special focus on the DRP and BGRP mechanisms.
Keywords
Internet; adaptive control; distributed control; quality of service; research initiatives; telecommunication control; transport protocols; AQUILA architecture; BGRP; BGRP mechanism; DRP mechanism; DiffServ-based architecture; European research project; IP-based layered architecture; Internet; adaptive resource control; backward compatibility; dynamic control; dynamic resource pool; interdomain reservations; intradomain resources; on-demand QoS; overlaid distributed control layer; quality of service; resource control layer; scalability; very large networks; Adaptive control; Admission control; Bit rate; Communication system control; Communication system traffic control; Diffserv networks; Multimedia databases; Programmable control; Streaming media; Traffic control;
fLanguage
English
Journal_Title
Communications Magazine, IEEE
Publisher
ieee
ISSN
0163-6804
Type
jour
DOI
10.1109/MCOM.2003.1166653
Filename
1166653
Link To Document