Title :
Prioritized resource allocation for stressed networks
Author :
Beard, Cory C. ; Frost, Victor S.
Author_Institution :
Dept. of Electr. & Comput. Eng., Missouri Univ., Kansas City, MO, USA
fDate :
10/1/2001 12:00:00 AM
Abstract :
Overloads that occur during times of network stress result in blocked access to all users, independent of importance. These overloads can occur because of degraded resource availability or abnormally high demand. Public broadband networks must dynamically recognize some multimedia connections as having greater importance than others and allocate resources accordingly. A new approach to connection admission control is proposed that uses an upper limit policy to optimize the admission of connections based on the weighted sum of blocking across traffic classes. This results in a simple algorithm suitable for multimedia and packet networks. This work is also the first to demonstrate that the use of an upper limit policy is superior to traditional approaches of adding extra capacity or partitioning capacity, both in terms of the amount of resources required and sensitivity to load variations. An upper limit policy can also be deployed much faster when a large overload occurs from a disaster event
Keywords :
Internet telephony; broadband networks; emergency services; multimedia communication; packet switching; quality of service; telecommunication congestion control; telecommunication traffic; IEPS; IETF; IP telephony; ITU; International Emergency Preparedness Scheme; QoS; algorithm; connection admission control; data networks; degraded resource availability; disaster event; emergency-related multimedia traffic; load variations sensitivity; multimedia connections; multimedia networks; network overloads; network stress; packet networks; prioritized resource allocation; public broadband networks; stressed networks; traffic classes; upper limit policy; weighted sum of blocking; Admission control; Availability; Broadband communication; Communication system traffic control; Degradation; Partitioning algorithms; Quality of service; Resource management; Stress; Telecommunication traffic;
Journal_Title :
Networking, IEEE/ACM Transactions on
