Title :
Link capacity allocation and network control by filtered input rate in high-speed networks
Author :
Li, San-qi ; Chong, Song ; Hwang, Chia-Lin
Author_Institution :
Dept. of Electr. & Comput. Eng., Texas Univ., Austin, TX, USA
fDate :
2/1/1995 12:00:00 AM
Abstract :
We study link capacity allocation for a finite buffer system to transmit multimedia traffic. The queueing process is simulated with real video traffic. Two key concepts are explored in this study. First, the link capacity requirement at each node is essentially captured by its low-frequency input traffic (filtered at a properly selected cut-off frequency). Second, the low-frequency traffic stays intact as it travels through a finite-buffer system without significant loss. Hence, one may overlook the queueing process at each node for network-wide traffic flow in the low-frequency band. We propose a simple, effective method for link capacity allocation and network control using on-line observation of traffic flow in the low-frequency band. The study explores a new direction for measurement-based traffic control in high-speed networks
Keywords :
channel capacity; filtering theory; multimedia communication; queueing theory; telecommunication congestion control; telecommunication links; telecommunication networks; telecommunication traffic; video signals; congestion control; cut-off frequency; filtered input rate; finite buffer system; high-speed networks; link capacity allocation; low-frequency band; low-frequency input traffic; measurement-based traffic control; multimedia traffic; network control; network-wide traffic flow; node; on-line observation; queueing process; video traffic; Communication system traffic control; Cutoff frequency; Frequency domain analysis; High-speed networks; Higher order statistics; Intelligent networks; Low pass filters; Streaming media; Telecommunication traffic; Traffic control;
Journal_Title :
Networking, IEEE/ACM Transactions on
