Mean message delays for two packet-FIFO queueing disciplines

Expressions are derived for the mean message delay, as a function of message length, when data messages of different lengths arrive asynchronously at a trunk and are divided, as they come in, into packets of some maximum length. The packets of different messages are intermingled and are put onto the trunk either from a single first-in-first-out (FIFO) queue, or from a high-priority and a low-priority queue for single-packet and multiple-packet messages, respectively. The results are compared to the case in which messages enter service in order of arrival and each message is served to completion without interruption, so that the mean message delay is independent of message length. >

[1]  Samuel P. Morgan Queueing disciplines and passive congestion control in byte-stream networks , 1989, IEEE INFOCOM '89, Proceedings of the Eighth Annual Joint Conference of the IEEE Computer and Communications Societies.

[2]  Manolis Katevenis,et al.  Fast switching and fair control of congested flow in broadband networks , 1987, IEEE J. Sel. Areas Commun..

[3]  A. G. Fraser,et al.  Queueing and framing disciplines for a mixture of data traffic types , 1984, AT&T Bell Laboratories Technical Journal.

[4]  John B. Nagle,et al.  On Packet Switches with Infinite Storage , 1987, IEEE Trans. Commun..

[5]  E. L. Hahne,et al.  Round robin scheduling for fair flow control in data communication networks , 1986, ICC.

[6]  K. M. Rege,et al.  Analysis of a multistage queue , 1985, AT&T Technical Journal.

[7]  John N. Daigle Message Delays with Prioritized HOLP and Round-Robin Packet Servicing , 1987, IEEE Trans. Commun..

[8]  Chung-Yin Lo,et al.  Performance analysis and application of a two-priority packet queue , 1987, AT&T Technical Journal.