A computer network is nothing but the baseline of telecommunications. The network is intended to interchange the information between an interconnected set of devices/systems. In order to establish the connection between nodes, wired or wireless communication media is used based on the requirement of the network. For instance: we can say that “INTERNET” which globally connects millions of computing devices to transfer the data.

            Now, we can see for what reasons students prefer us to develop their computer networking projects. Our smart thinking developers have more than enough practice in handling the computer networking research field. So, we have learned all the smart ways to create the best projects. Below, we have given you the list of our specialties in developing the best project on computer networking for students.

Why to choose us for computer networking projects?

• Capable to design independent network entities on own with different working functionalities 
• Have core knowledge in computer network ground rules. Further, constantly improve the skills in up-to-date technological advancements
• Practice in all basic and latest development tools/technologies of network simulation projects
• Refer to all recent research articles, magazines, and journal papers to keep in touch with current research areas and ideas
• Strong in fulfilling customer needs on constructing heterogeneous network models
• Delivering accurate simulation results for various simulation scenarios along with appropriate tables and graphs
• Practically implement the numerous novel ideas by means of different protocols/networks scenarios
• Efficient performance measurement of the simulated model by means of QoE and QoS parameters

As mentioned earlier, we are unique in delivering customized projects in a computer networking. Here, we have given you the things that we follow to assess the worth of the developed model for the best project on computer networking for students.

From this page, you can grasp information on Computer Networking Research Areas, Project Topics, and Development Tools!!!

To do the best project, we must know the following.

• Realize the actual state of the problem
• Define the research aim and objectives
• Validate the worth of proposed ideas in all aspects
• Ensure the current contribution and future scope of the project
• Analyze the benefits of used methodologies
• Match research findings with mentioned objectives

What is computer networking?

In simple terms, computer networking in the field of learning exactly by what means the computing devices are connected with each other to exchange data. Though it incorporates the advantage of establishing wired /wireless communication, it also contains some technical gaps that are looking forward to solving before long. And, some of them are as follows,

• Lack of information on social phenomena of network
• Efficient dynamic user communication through the internet
• Scalable to enable data transmission over millions of devices. For instance: smart IoT
• Smooth connection among dynamic moveable devices
• Robust security mechanisms and controls. For instance: firewalls and IDS
• Preserving reliable internet services from providers at a reasonable price
• Increasing the speed of software and network entities. For instance: >100 Gbps
• Adaptability of advanced wireless technologies. For instance: smart gadgets and phones

Background of Computer Networking

In regardless of network type and scenario, we give you sufficient key information on the following aspects for your study. And, this information is common for all project on computer networking for students.

• Inspect the positive impact of the wireless network
• Detailed synopsis on work flow of wireless network
• Building the wireless network topology and devices / other entities
• Investigate the wireless heterogeneous networks

What are examples of networking?

In an organization, if the computers are connected with each other by means of any network type like LAN / WAN. Then, the employees from different departments are allowed to share their documents within the network. Similarly, the resource like the printer is shared by all the systems by their inter-connection ability.  

What are the goals of computer networking projects?

Next, we can see about the few vital ultimate targets of the computer networks. Basically, the efficiency of the network system is evaluated by several metrics. The two most important metrics are transmission and response time. Here, the transmission time addresses the amount of time required to transfer data from source to destination nodes. Likewise, the response time addresses the amount of waiting time to get the response from the time of the request. Here, we have listed other objectives of the computer networks.

• High Reliability – Due to some undesired circumstances, the system may be put under sudden failure. It is necessary to get the system back to its original state without data loss by this time. For this, we have to consider failure frequency, fault tolerance, and failure recovery features of the system
• Resource Sharing – Increase the sharing of resources in organizations. Since buying the resources for each member/system is technically impossible for large-sectors. Also, some may need to access the resource from a remote location. At this time, computer networks allow users to share both local and distant resources
• Security – Because of its open connectivity, the network needs to protect its information against security attacks, threats, and vulnerabilities
• Inter-process Communication – The users from different parts of the world may access the network users for an interactive session. At this moment, the system needs to ensure the continuous fault-free connection for seamless communication

So far, we have discussed the computer networking importance, examples, and objectives. Now, we can see the important research areas in the computer network field. In our recent research, we have handpicked numerous hidden research areas with interesting research networking project topics. For your information, we have shared only a few of them.

Computer Networking Research Areas

• Network Resource Allocation in Distributed Networks
• Fast Communication in Underwater wireless, Cable Networks
• Reliable Transmission in 5G / 6G Cellular System
• Wireless Data Communication in Radio Access Network (RAN)
• Employing Energy-Aware Communication Protocol in Optical Communication
• Efficient Spectrum Utilization in Enterprise Optical Networks

In addition, we have also given you significant information on recent research project on computer networking for students. Further, we assure you that we will support to build of any kind of challenging applications to yield expected results.

What are some computer networking projects?

• Improved Honeypot Design for Web Attack Quantification
• Dynamic Interaction on Web Information and Technologies
• Advance Self-protective Mechanisms for Network Information Security
• Remote Patient Health Observing using Device IP Address
• Efficient Security Solutions for Network MAC and IP address Challenges

The current widely used IEEE standards (802.11af, 802.11ac, and IEEE 802.11ad) create a positive impression in the 5G network. Moreover, the wireless communication model has the capability to address the large-scale network prior to direct deployment at a minimal cost.  Also, the technology is moving towards low-cost pervasive broadband wireless communication. For your reference, here we have given you another IEEE standard with its key features.

Latest IEEE Standards for Computer Networking

• IEEE 802.11ac
  • Modulation Type – OFDM
  • Channel Capacity – 80 MHz 40 MHz and 20 MHz (160 MHz optional)
  • Spectral Ability – 21.665 bps / Hz (80 MHz)
  • Bit Rate (Multi-Stream) – < 3.47 Gbps (160 MHz) and < 1.73 Gbps (80 MHz)
  • Bit Rate (Single Stream) – < 867 Mbps (160 MHz) and < 433 Mbps (80 MHz)
  • Frequency Band – 5GHZ
• IEEE 802.11an
  • Modulation Type – OFDM
  • Channel Capacity – 40 MHz and 20 MHz
  • Spectral Ability – 15 bps / Hz (40 MHz)
  • Bit Rate (Multi-Stream) – < 600 Mbps (Aggregated)
  • Bit Rate (Single Stream) – < 150 Mbps
  • Frequency Band – 5GHz, 4.9 GHz and 2.4 GHz
• IEEE 802.11af
  • Modulation Type – OFDM
  • Channel Capacity – 40 MHz, 20 MHz, 10 MHz and 5 MHz
  • Spectral Ability – N/A
  • Bit Rate (Multi-Stream) – 54 Mbps
  • Bit Rate (Single Stream) – 54 Mbps
  • Frequency Band – 0.47 to 0.71 GHZ
• IEEE 802.11ad
  • Modulation Type – Single carrier (low-power)and OFDM
  • Channel Capacity – 2 GHz
  • Spectral Ability – 1 bps / Hz (2GHz)
  • Bit Rate (Multi-Stream) – 7 Gbps
  • Bit Rate (Single Stream) – 4.6 Gbps
  • Frequency Band – 60 GHZ

Generally, simulation tools let you create, test and deploy the network environment virtually. At this point itself, we can improve the network efficiency and correct the misconfiguration.  Also, it enables you to get escape from the high expense of direct deployment.  Overall, it is the cheapest way to analyze the performance and behavior of the actual network before real implementation. Up to now, numerous simulation tools are developed for various kinds of networks. 

Further, for working with simulators, good technical skills are required. Even though low-level networks are enough with limited knowledge, protocols and APIs require sufficient programming skills for IoT thesis. Next, we can see the advantage of using simulators for network modeling and development. Network design and simulation software typically provide the following capabilities:

• Enable to address the network traffic through particular network components. Then, allow simulating the network for assessing overall performance with respect to that traffic level
• Include in-built mechanisms to graphically design the network topology by positioning vendor-specific components (application/firmware) in the network
• Capable to increase or decrease the network size/dimension through adding or removing minor units in the major units
• Ability to analyze the network entity failure for rerouting the traffic through switches/routers
• Comprises storage facility for storing reports of custom-based network configuration
• Able to design the networks with different characteristics from small-scale to the large-scale extent

To the end, our developers have given you some popular simulation tools that will yield accurate results. We are familiar with all these tools; beyond this, we also suggest other tools based on the needs of your selected project.

Simulation Tools for Computer Networks

• Mininet
  • Extended tool – Mini-CCNx
  • Suitable for developing software-defined projects
  • Enable to design and analyze the interactive prototype
  • Able to integrate different networks and adapt dynamic topology variations
• LTE-Sim
  • Specifically intended for LTE / 4G Communication System
  • Easy to design the user equipment (UE), HeNB and eNB
  • Support to produce differentiated network traffic from multiple sources
  • Also enable to work with new release of LTE-M, LTE-A and LTE-A+ or Pro
• Contiki
  • Simple to design and develop performance guaranteed software and hardware
  • Well-appropriate for resource constrained IoT systems
  • Enabling protocols: Ipv6, 6LoWPAN and IPv4
  • Provide the functionalities of multi-threading and multi-tasking in TCP/IP

Overall, we are ready to develop any Project on Computer Networking for Students who wish to create great work in their research profession. Further, we also extend our service in other aspects of research as paper writing and thesis writing, with publication support. So, you can connect with us for any kind of support.