Communication Network Simulation

Networking is the interconnection of any device and users to send and receive information over a global telecommunications network. PhD topics in network communication carry a wide range of information designed to help you understand communication network simulation as well as to choose the appropriate topic for your thesis.  Let’s get into the basics of what networking is all about.

What is Networking? 

With the aid of radio waves spectrum, satellite and infrared waves networking is made possible. For instance, through the internet, the whole world can communicate faster and easier. To make the networking efficient as well as useful for the users, a number of protocols have been developed and still developing. Their task is to make the information meaningful to the receiver. For instance, these protocols involve the feature called flow control in which it detects error and resends it to the user to rectify the errors.


  • Priority-based MAC design for IEEE 802.11ah
  • 6TiSCH and TiSCH communication optimization in IIoT
  • HetNet communication handoff and management
  • Lightweight cryptography for secure communication
  • D2D and V2X communication in cellular-VANET
  • Optimized antenna selection in MIMO & VMIMO
  • Hybrid beamforming with accurate CSI prediction

Of course, you are free to opt for any above topic but not limited as we have a huge count of novel topics. However, keep in mind that topic selection is just the starting point of PhD. The next stage is the implementation of the topic under various network scenarios. In fact, we endow assist in implementation too. 

Performance Evaluation of Communication Network Simulation

Performance Analysis in Communication Network Simulation

Let’s take a look at Network design tools, getting the right tool to design your network is of prime importance in the field of Network design. It deals with data transport mechanisms. Here we shall find some characteristics offered by Network design and simulation protocols.

Attributes for network simulation 
  • High storage for network configuration
  • The capacity of extending units and layering of the diagram
  • The ability to switch and reroute traffic empty number of modeling networks in varied sizes
  • The capacity to particularize traffic loads and does what needs to be done
  • Has Network layout designing tools


Network simulators play much role in the part of Communication network simulation, some of the elements supported by simulators are as follows,

  • Queues
  • Policies
  • Procedures
  • Algorithms
  • Protocol implementation

Want to become a scholar in Network communication, we are ready to infuse you with enormous information. Even if you don’t have networking experience, this platform will guide you to become an expert in it. It gives you a solid foundation of networking for you to build on. Commitment, Loyalty, On-time delivery, and Budget are our core values. So feel free to contact phd topics in Network Communication to get your topics under the wide arena of Network communication as the topic is the key starter to proceed with your research.

Communication network simulation Tools 

The aforementioned simulators are further classified into distinct types. We can take a look at the general classifications of it.  

Types of Network Simulation Models 

  • Stochastic and deterministic models – elements that are not specific are termed as stochastic, and other than stochastic, are taken as deterministic models. Queueing system is an example of random components
  • Discrete and continuous model – constant change in state variables is termed as a continuous model. Instant change at discrete points is known as the Discrete model 
  • Static and dynamic simulation models – a system independent is called static whereas a dynamic system (changes rapidly) in nature is termed dynamic 

Now, we shall take a good look at some of the communication network simulation parameters which will help you get through the other stages of research work other than topic selection.

Network Simulation Parameters

  • Propagation model
  • Traffic type
  • Simulation time
  • Type of channel
  • Simulation area
  • Type of antenna
  • Routing protocols
  • Packet length
  • Speeds (kmph)
  • Number of nodes

Moreover, we shall look into the network models that fundamentally consider these following attributes,

  • Latency
  • Dropped packet rate
  • Buffer usage
  • Node’s CPU utilization
  • Link utilization
  • Protocol overhead
  • Network efficiency
  • Response time
  • Bandwidth
  • Number of packets sent and received
  • Packet delays

Don’t waste your time contemplating where to start. Choose wisely and Select PhD topics in Network communication. Any projects/assignments/dissertation is very carefully made by our passionate PhD scholars who are extraordinarily skilled with all networking systems. We always come up with new thoughts and implement communication network simulation with tools of your choice. So take the chance and enjoy the service.