On fluid‐flow modeling of priority based request scheduling for finite buffer SIP server

Yavaş, Demir Y.; Hökelek, İbrahim; Günsel, Bilge

doi:10.1002/dac.3357

Cited by 4 publications

(1 citation statement)

References 41 publications

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“…Different queuing models, like First-in-First-out (FIFO), request type based priority queues, were analyzed through analytical methods and simulation methods, for recognizing and controlling overload condition in SIP servers [18][20] [27]. D. Y. Yavas et.al proposed a fluid-flow modeling [29] and priority based modeling [30] for processing SIP requests with a queuing system that gives higher priority for initial requests instead of retransmitted requests. However if the original requests are dropped in the network, retransmitted requests will starve in low priority queues for longer durations.…”

Section: ) Sip Self Overload Controlmentioning

confidence: 99%

Overload Control with Hybrid SIP Signaling - Using Smart Reliability and Priority Queuing Strategies

Guduru*¹,

Jayadevappa²

2019

IJRTE

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Session Initiation Protocol is an IP based application level signaling protocol. SIP employs request retransmission for enabling reliability over UDP transport. This research work proposes a Hybrid SIP System that integrates the congestion control techniques from the proposed Smart Reliable SIP and Overload control using Advanced Smart Priority (ASP) Queuing Strategy. The proposed system reduces retransmissions and queuing delays in SIP servers. Smart Reliable SIP (SRSIP) implements the modified Selective Repeat ARQ protocol for enabling reliability of SIP requests without violating the SIP core functionality. SRSIP reduces the number of retransmissions. ASP Queuing Strategy prioritizes the SIP requests based on the retransmissions. The proposed system reduces the queuing delays for request processing at the downstream server and the retransmissions over the network. The Hybrid models integrates the features of both Smart Reliable SIP and ASP queuing strategy resulting in a system with almost zero retransmissions and reduced queuing delay for request processing.

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Section: ) Sip Self Overload Controlmentioning

confidence: 99%