Title :
Access flow control scheme for ATM networks using neural-network-based traffic prediction
Author :
Fan, Z. ; Mars, P.
Author_Institution :
Sch. of Eng., Durham Univ., UK
fDate :
10/1/1997 12:00:00 AM
Abstract :
The authors propose a new approach to the problem of congestion control arising at the user network interface (UNI) of ATM-based broadband networks. The access flow control mechanism operates on the principle of feedback control. It uses a finite impulse response (FIR) neural network to accurately predict the traffic arrival patterns. The predicted output in conjunction with the current queue information of the buffer can be used as a measure of congestion. When the congestion level is reached, a control signal is generated to throttle the input arrival rate. The FIR multilayer perceptron model and its training algorithm are discussed. Simulation results presented in the paper suggest that the scheme provides a simple and efficient traffic management for ATM networks
Keywords :
FIR filters; asynchronous transfer mode; broadband networks; buffer storage; multilayer perceptrons; prediction theory; queueing theory; recurrent neural nets; telecommunication congestion control; telecommunication network management; telecommunication traffic; ATM networks; FIR multilayer perceptron; access flow control mechanism; access flow control scheme; broadband networks; buffer; congestion control; congestion level; control signal; feedback control; finite impulse response neural network; input arrival rate; neural-network-based traffic prediction; queue information; traffic arrival patterns; traffic management; training algorithm; user network interface;
Journal_Title :
Communications, IEE Proceedings-
DOI :
10.1049/ip-com:19971408
