Title :
An analytical model for buffer and trunk sizing and severe congestion avoidance in LAPD frame-relay networks
Author :
Rege, Kiran M. ; Chen, Kim-Joan
Author_Institution :
AT&T Bell Lab., Holmdel, NJ, USA
Abstract :
An analytic model is presented to deal with sizing and managing sources so that the severity of congestion can be minimized. This model does not account for packet loss and the consequent retransmission. However, it computes distributions of the number of packets of each type in the trunk buffer and the corresponding memory requirements, which can be used to estimate the probability of packet loss for a given buffer size. The model uses closed queuing analysis with simple approximations to account for the constraints imposed by window flow control. Some results derived from the model are presented and compared with those obtained through simulation. The analytical model can deal with the buffer sizing problem for high-speed trunks which can carry thousands of virtual circuits. It is demonstrated that with proper system sizing and management, network resources can be efficiently utilized.<>
Keywords :
ISDN; information theory; management; protocols; telecommunication traffic; ISDN; LAPD frame-relay networks; analytic model; buffer size; closed queueing analysis; congestion avoidance; memory requirements; network resources; packet loss; protocols; retransmission; system management; trunk buffer; trunk sizing; virtual circuits; window flow control; Adaptive control; Analytical models; High-speed networks; ISDN; Intelligent networks; Packet switching; Programmable control; Protocols; Resource management; Switches;
Conference_Titel :
Communications, 1988. ICC '88. Digital Technology - Spanning the Universe. Conference Record., IEEE International Conference on
Conference_Location :
Philadelphia, PA, USA
DOI :
10.1109/ICC.1988.13547
