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Simulation Model of Enhancing Performance of TCP/AQM Networks by Using Matlab

Authors :
Ghada Adel Aziz
Manal Hadi Jaber
Mohammed Qasim Sulttan
Salam Waley Shneen
Source :
Journal of Engineering and Technological Sciences. 54:220404
Publication Year :
2022
Publisher :
The Institute for Research and Community Services (LPPM) ITB, 2022.

Abstract

Internet networks are becoming more crowded every day due to the rapid development of modern life, which causes an increase in the demand for data circulating on the Internet. This creates several problems, such as buffer overflow of intermediate routers, and packet loss and time delay in packet delivery. The solution to these problems is to use a TCP/AQM system. The simulation results showed that there were differences in performance between the different controllers used. The proposed methods were simulated along with the required conditions in nonlinear systems to determine the best performance. It was found that the use of optimization Department of Electro-mechanical Engineering, University of Technology - Iraq tools (GA, FL) with a controller could achieve the best performance. The simulation results demonstrated the ability of the proposed methods to control the behavior of the system. The controller systems were simulated using Matlab/Simulink. The simulation results showed that the performance was better with the use of GA-PIDC compared to both FL-PIDC and PIDC in terms of stability time, height, and overrun ratio for a network with a variable queue that was targeted for comparison. The results were: the bypass ratio was 0, 3.3 and 21.8 the settling time was 0.002, 0.055, and 0.135; and the rise time was 0.001, 0.004 and 0.008 for GA-PIDC, FL-PIDC and PIDC, respectively. These results made it possible to compare the three control techniques.

Subjects

Subjects :
General Engineering

Details

ISSN :
23385502 and 23375779
Volume :
54
Database :
OpenAIRE
Journal :
Journal of Engineering and Technological Sciences
Accession number :
edsair.doi...........9ad0a22e67d2c265e3598b79e21c1f62