Title :
FAFC: fast adaptive fuzzy AQM controller for TCP/IP networks
Author :
Aoul, Yassine Hadjadj ; Nafaa, Abdelhamid ; Negru, Daniel ; Mehaoua, Ahmed
Author_Institution :
Lab. CNRS-PRISM, Versailles, France
fDate :
29 Nov.-3 Dec. 2004
Abstract :
Recently, many active queue management (AQM) algorithms have been proposed to address performance degradations of end-to-end congestion control. However, these AQM algorithms present weaknesses for stabilizing delays in heavily loaded networks. In this paper, we describe a novel adaptive fuzzy control algorithm to improve best effort TCP/IP networks performance. Compared to traditional AQM algorithms (RED, PID and others), our proposal avoids buffer overflows/underflows, and minimizes packet dropping. We propose an on-line adaptation mechanism that captures fluctuating network conditions, while classical AQM algorithms require static tuning. The algorithm stability is mathematically proven. Simulation results show that for the same link utilization, our fast adaptive fuzzy controller provides better performance than RED and PID.
Keywords :
IP networks; adaptive control; fuzzy control; quality of service; telecommunication congestion control; transport protocols; AQM algorithms; FAFC; PID; QoS; RED; TCP congestion avoidance mechanisms; active queue management; best effort TCP/IP networks; buffer overflow; buffer underflow; end-to-end congestion control; fast adaptive fuzzy AQM controller; fast adaptive fuzzy controller; heavy loaded network delay stabilization; link utilization; on-line adaptation mechanism; packet dropping minimization; Adaptive control; Buffer overflow; Degradation; Fuzzy control; IP networks; Programmable control; Proposals; Stability; TCPIP; Three-term control;
Conference_Titel :
Global Telecommunications Conference, 2004. GLOBECOM '04. IEEE
Print_ISBN :
0-7803-8794-5
DOI :
10.1109/GLOCOM.2004.1378200
