Queuing model for SIP server hysteretic overload control with K-state MMPP bursty traffic

In this paper, we develop a mathematical model of a load control mechanism for SIP server signaling networks based on a hysteretic technique. We investigate loss-based overload control, as proposed in recent IETF documents. The queuing model takes into account three types of system state - normal load, overload, and discard. The hysteretic control is made possible by introducing two thresholds, L and H, in the buffer of total size R. We constructed an analytical model of SIP server with K-state MMPP flow, input flow and bi-level hysteretic overload control mechanism to investigate the performance indicators of a SIP server in the case of bursty input message flow. Algorithms for computation the key performance parameters of the system were introduced. A numerical example illustrating the control mechanism that minimizes the return time from overloading states satisfying the throttling and mean control cycle time constraints is also presented. © 2014 IEEE.

Authors
Publisher
IEEE
Number of issue
January
Language
English
Pages
495-500
Status
Published
Number
7002151
Volume
2015-January
Year
2015
Organizations
  • 1 Department of Applied Informatics and Probability Theory, Peoples' Friendship University of Russia, Moscow, Russian Federation
Keywords
hop-by-hop overload control; hysteretic control; loss-based overload control; MMPP flow; queuing model; return time; SIP server
Date of creation
19.10.2018
Date of change
09.02.2024
Short link
https://repository.rudn.ru/en/records/article/record/4602/
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