Abstract :
In a WAN, bottleneck links are often primary sources of congestion and resultant QoS degradation in the form of increased queueing delay, jitter, and packet loss. As IMS-based service offerings increase, so too will the need for technologies that jointly optimize QoS for packet flows and utilization of bottleneck links. Optimal scheduling of packet-flow transport across bottleneck links, such as T1 access links and 802.11 WLAN´s, can simultaneously achieve high QoS and high average link utilization; however, optimal online scheduling of heterogeneous packet flows found in multimedia environments is, in general, a hard problem. Babylonian scheduling is a scheduling system design methodology based on mathematical group theory which simplifies the design of efficient scheduling algorithms that meet QoS and utilization objectives and that may be executed online.
Keywords :
IEEE standards; jitter; packet radio networks; packet switching; quality of service; queueing theory; scheduling; telecommunication congestion control; wide area networks; Babylonian scheduling; QoS; WAN; bottleneck links; congestion; jitter; mathematical group theory; network links; packet loss; packet-flow scheduling; queueing delay; Algorithm design and analysis; Bandwidth; Degradation; IPTV; Jitter; Optimal scheduling; Processor scheduling; Scheduling algorithm; Teleconferencing; Wide area networks;
