Title :
Distributed admission control
Author :
Kelly, Frank P. ; Key, Peter B. ; Zachary, Stan
Author_Institution :
Cambridge Univ., UK
Abstract :
This paper describes a framework for admission control for a packet-based network where the decisions are taken by edge devices or end-systems, rather than resources within the network. The decisions are based on the results of probe packets that the end-systems send through the network, and require only that resources apply a mark to packets in a way that is load dependent. One application example is the Internet, where marking information is fed back via an ECN bit, and we show how this approach allows a rich QoS framework for flows or streams. Our approach allows networks to be explicitly analyzed, and consequently engineered.
Keywords :
Internet; distributed control; packet switching; quality of service; queueing theory; telecommunication congestion control; ECN bit; Internet; QoS; distributed admission control; edge devices; end-systems; flows; marking information; packet-based network; probe packets; streams; virtual queue mechanism; Admission control; Aggregates; Control systems; Distributed control; Internet; Packet switching; Probes; Quality of service; Streaming media; Switches;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
