Comparative Study of TCP New Reno, CUBIC and BBR Congestion Control in ns-2
- or -
Post a project like this$60
- Posted:
- Proposals: 2
- Remote
- #2254322
- Expired
Description
Experience Level: Intermediate
Project Domain / Category
Networking
Abstract / Introduction
TCP is one of the main protocols of TCP/IP Internet suite. Many popular Internet applications like World Wide Web and E-mail use TCP as their transport protocol. A good understanding of TCP can serve the bigger objective of learning how Internet communication works. Many variants of TCP protocol have been proposed over the years; the main differentiating point between each of these variants is their congestion handling. Our focus here will only be on three variants of TCP, namely: i) New Reno, ii) CUBIC, and iii) BBR. The objective of this project is to carry out comparative study and performance analysis of these three variants in network simulator ns-2. Working in ns-2 requires: i) understanding of basic commands of Linux operating systems (for ns-2 installation and running purposes), ii) good programming skills in C++ (for implementing TCP CUBIC and TCP BBR models), iii) programming in TCL (for writing simulation scripts), iv) understanding of AWK command (for trace text processing), and v) understanding GNUPLOT command (for drawing graphs). The three TCP variants will be compared on the basis of their congestion control mechanism and their performance will be analyzed using different simulation scenarios. Students may use existing ns-2 implementations of CUBIC and BBR (written by other developer hosted on sites like github.com) but it is preferred that students implement these protocols themselves.
Intended Outcomes
1. A theoretical comparison of TCP variants: New Reno, CUBIC and BBR using different parameters.
2. Performance analysis of the three TCP variants in network simulator ns-2 using different simulation scenarios.
Required Programming Skills
1. Understanding of basic Linux commands
2. C++, TCL, AWK and GNUPLOT (for working in ns-2)
Networking
Abstract / Introduction
TCP is one of the main protocols of TCP/IP Internet suite. Many popular Internet applications like World Wide Web and E-mail use TCP as their transport protocol. A good understanding of TCP can serve the bigger objective of learning how Internet communication works. Many variants of TCP protocol have been proposed over the years; the main differentiating point between each of these variants is their congestion handling. Our focus here will only be on three variants of TCP, namely: i) New Reno, ii) CUBIC, and iii) BBR. The objective of this project is to carry out comparative study and performance analysis of these three variants in network simulator ns-2. Working in ns-2 requires: i) understanding of basic commands of Linux operating systems (for ns-2 installation and running purposes), ii) good programming skills in C++ (for implementing TCP CUBIC and TCP BBR models), iii) programming in TCL (for writing simulation scripts), iv) understanding of AWK command (for trace text processing), and v) understanding GNUPLOT command (for drawing graphs). The three TCP variants will be compared on the basis of their congestion control mechanism and their performance will be analyzed using different simulation scenarios. Students may use existing ns-2 implementations of CUBIC and BBR (written by other developer hosted on sites like github.com) but it is preferred that students implement these protocols themselves.
Intended Outcomes
1. A theoretical comparison of TCP variants: New Reno, CUBIC and BBR using different parameters.
2. Performance analysis of the three TCP variants in network simulator ns-2 using different simulation scenarios.
Required Programming Skills
1. Understanding of basic Linux commands
2. C++, TCL, AWK and GNUPLOT (for working in ns-2)
Bilal J.
0% (0)Projects Completed
-
Freelancers worked with
-
Projects awarded
0%
Last project
4 May 2024
United Arab Emirates
New Proposal
Login to your account and send a proposal now to get this project.
Log inClarification Board Ask a Question
-
There are no clarification messages.
We collect cookies to enable the proper functioning and security of our website, and to enhance your experience. By clicking on 'Accept All Cookies', you consent to the use of these cookies. You can change your 'Cookies Settings' at any time. For more information, please read ourCookie Policy
Cookie Settings
Accept All Cookies