NS3 6G Projects are mainly developed for research and education. Network Simulator 3 (NS3) is widely used to simulate various wired and wireless networks before deploying them in a real environment. Direct implementation of networking concepts requires large investments, but NS3 6G Projects help researchers and scholars test their ideas virtually. We provide complete NS3 code, project implementation support, and guidance for students and PhD scholars.

Scripting Language for NS3 Code

The NS3 6G Projects simulator code is mainly written in C++ and optionally in Python. Python scripting is often used for easier configuration and automation.

NS3 Coding Standards

1. Each command of NS3 code is separated in a new line to improve readability.

2. Code blocks should be enclosed with braces.

3. Variable names must be descriptive and easy to understand.

4. Variables should be declared only when needed.

5. Filenames should be meaningful (e.g., MyExample.cc, not me.cc).

6. Filenames should not be in all capitals (avoid MYEXAMPLE.cc).

7. Functions should include proper comments explaining requirements.

8. Proper indentation must be followed for clarity.

NS3 Code Simulation Steps

1. Include all required header files.

2. Use the correct namespaces.

3. Define simulation start and stop times.

4. Create nodes.

5. Configure PHY and MAC layers.

6. Set interconnections between nodes.

7. Implement the routing protocol.

8. Create a trace file.

9. Run the simulation.

We provide a wide range of NS3 6G Projects services including project development, research implementation, journal publication support, and paper guidance. Our experienced team ensures that NS3 6G Projects follow standard coding practices so that students and PhD scholars can easily learn and implement them. With our support, scholars can successfully complete NS3 6G Projects in advanced domains like MANET, VANET, LTE, 5G, and 6G networks.