FAQ-MAST TCP for Secure Download

Authors

  • Christo Ananth Department of Electronics and Communication Engineering, Francis Xavier Engineering College
  • S. Esakki Rajavel Department of Electronics and Communication Engineering, Francis Xavier Engineering College
  • I. Anna Durai Department of Electronics and Communication Engineering, Francis Xavier Engineering College
  • A. Mydeen Syed Ali Department of Electronics and Communication Engineering, Francis Xavier Engineering College
  • C. Sudalai Utchi Mahali Department of Electronics and Communication Engineering, Francis Xavier Engineering College
  • M.Ruban Kingston Department of Electronics and Communication Engineering, Francis Xavier Engineering College

Keywords:

Congestion Control, FAQ-MAST TCP, HSTCP, Reno TCP, STCP

Abstract

The innovative congestion control algorithm named FAQ-MAST TCP (Fast Active Queue Management Stability Transmission Control Protocol) is aimed for high-speed long-latency networks. Four major difficulties in FAQ-MAST TCP are highlighted at both packet and flow levels. The architecture and characterization of equilibrium and stability properties of FAQ-MAST TCP are discussed. Experimental results are presented comparing the first Linux prototype with TCP Reno, HSTCP, and STCP in terms of throughput, fairness, stability, and responsiveness. FAQ-MAST TCP aims to rapidly stabilize high-speed long-latency networks into steady, efficient and fair operating points, in dynamic sharing environments, and the preliminary results are produced as output of our project. The Proposed architecture is explained with the help of an existing real-time example as to explain why FAQ-MAST TCP download is chosen rather than FTP download. The Paper is concluded with the results of the new congestion control algorithm aided with the graphs obtained during its simulation in NS2.

Downloads

Published

2023-05-20

How to Cite

Ananth, C., Rajavel, S. E., Durai, I. A., Syed Ali, A. M., Utchi Mahali, C. S., & Kingston, M. (2023). FAQ-MAST TCP for Secure Download. International Journal of Communication and Computer Technologies, 2(1), 47–55. Retrieved from https://ijccts.org/index.php/pub/article/view/33

Issue

Section

Research Article