Ns3 Projects for B.E/B.Tech M.E/M.Tech PhD Scholars.  Phone-Number:9790238391   E-mail: ns3simulation@gmail.com

Ns3 WiFi Projects

             Are you searching for the finest article related to Ns3 WiFi projects? If yes!!! You guys have to refer the following info graphic and these are some of the key notes which are related to Ns3 WiFi process.

            Let’s start this article with the short note about network simulation and WiFi. Our research experts have listed out the significance based on NetSim functions in the following.

What is NetSim?

           The NetSim is denoted as the network simulation software which is deployed for the network research and development, network design validation and defense applications. The functions of network emulator are to add and permit the users to link the NetSim for the functions of live applications in the real devices. It permits the real traffic for the flow through the emulator and with the experience of network effects. The virtual network includes various test scenarios with the involvement of all the real devices and applications. It is capable to create and implement the normal operations as the repetitive process for the perturbed operations.

Purpose of Ns3 WiFi Projects

  • Integration of various cyber test beds
  • State of testing is designed before the preparation of real devices and software
  • Impression is seeming as the immediate process of non-required interpretation through the statistics in simulation
  • Testing application performance is considered as the subject based on the network effects including
  • Loss
  • Delay
  • Error
  • R and D is included in novel protocol design and it is deployed to test the performance of protocols along with the real applications

            The above mentioned are the significant purposes based on the utilization of NetSim emulator and it is considered as the cost effective alternative process for the hardware emulators and it includes the high cost with several complications that are in the limited scale and multifaceted configuration requirements.

Virtual LAN (VLAN) Configuration in NetSim

          Virtual local area network is denoted as VLAN and it is deployed in various switches and to operate both the layer 2 and layer 3. The VLAN is considered as the group of host to communicate the required attachment with similar broadcast domains and it includes the regardless of all the physical locations.

          For instance, the servers and work stations are functioning as the specific team of work group which is capable to connect the similar VLAN and that is not is similar to the physical connections in the network or else the intermingles process of teams are applied as the significant functions. The VLANs includes the similar attributes such as the physical LANs and the users can make a group of end stations that are physically located with the similar LAN segments which are highlighted in the following.

  • Inter VLAN routing
  • VLAN configuration through GUI and text file
  • VLAN ID and VLAN name
  • VLAN tagging
  • Access and trunk ports

ACL Configuration in NetSim

          Access control lists is abbreviated as ACL and the routers are offering the fundamental capabilities based on traffic filtering with some lists of access control. ACL is denoted as the sequential list that is permitted for the process to deny statements and to apply the address for the upper layer protocols.

         The sequential list of series based on commands and filters are called as access list and it is the list that is to convey the router process what the types of packets are deny and permit. It is used in the filter traffic to enable the traffic and to permit statement when the deny statement is deployed to block the traffic. Some of the ACLs are listed in the following.

  • Source and destination port numbers
  • Source and destination IP Address
  • Interface Id blocking
  • Protocol wise permit blocking
  • ACL Direction
  • Inbound
  • Outbound
  • Both
  • ACL Action
  • Deny
  • Permit

NAT Configuration in NetSim

           Network address translation and network address translator is abbreviated as NAT and it is denoted as the virtualization of internet protocol addresses. In addition, it is assistive to enhance the security and that is capable to decrease the number of IP address what the organization is requiring. The device is configured as the process of NAT which includes one interface inside to the network and other to the outside of network.

            NAT is configured as the exit device among the backbone and stub domain which means the inside network in the typical environment. While the packets are left for the domain, the NAT is used to translate the local source address which is global unique address. The packets are entered with domains for NAT translation for global unique destination address towards the local address.

Configuring Static Routing in NetSim

            The static routers are deployed in environment in which the network traffic is deployed to predict the network design which is simple. Notably, the users are not using the static routes which is large and that is frequently altering the network due to the static routes that are not capable to react for all the network changes. In general, several networks are utilizing the dynamic routes which are used to communicate among the routers and for special cases the static routes have to be configured.

            Routers are capable to forward the packets that are utilizing the route information over the entries of route table that is configured as the manual process and the route information have to be followed through some calculations of dynamic routing algorithms. The categorical paths among the routers are considered as the static routes and it is not capable to update automatically. So, the user has to proceed for the manual reconfiguration of static routes while the network alteration is occurred. Finally, the less bandwidth is deployed for the dynamic routes for the static routes.

Software Defined Networks in NetSim

           The simulation based on SDN in NetSim is functioning with the SDN controller and modules based on OpenFlow compatibility. It includes the characteristics based on SDN controller with the utilization of control packets with the devices based on layer 3 in the network. It is deployed and available in the networks such as.

  • LTE
  • VANETs
  • WSN/IoT
  • MANETs
  • Internetworks

          NetSim SDN is considered as the OpenFlow process with compatible and it is open interface which is remotely controlling the forwarding tables using the access points, routers and switches based on network. In addition, we have enlisted the devices based on layer 3 which is controlled through NetSim SDN controllers.

  • LTE
  • LTE MME
  • MANETs
  • MANET nodes
  • Wireless nodes
  • WSN / IOT
  • Sensors and Gateway are based on the sink node in WSN and LowPAN Gateway in IoT
  • Internetworks
  • Routers
  • Nodes
  • Wireless node
  • Wired node
  • L3 Switches
  • VANETs is considered as the roadside unit will have the SDN controller
  • VANET nodes

          Currently, the researchers need the latest and emerging research use cases with the appropriate examples in military radios and 5G networks to develop their research in this area. Since, finding solutions for the issues using the advanced technologies becomes indebted research. Further, choose the below mentioned use cases to develop the research notion for Ns3 WiFI projects with the help our research experts and it is an easy job than any other streams.

Examples Use Cases for Military Radios

  • Output metrics
  • Quality of service
  • Throughput
  • Error
  • Delay
  • Loss
  • Real time traffic including the data, voice and video which is capable to send among the virtual machines
  • All the soldier are emulated through a virtual machine that is designed inside the physical server and the MANET scenario in NetSim. It is assistive to cover the parameters based on the following elements
  • L3 / MAC / PHY protocol attributes
  • RF propagation losses
  • Mobility
  • Scenario of soldiers communicating as a MANET through the utilization of UHF and VHF radios that are created in NetSim emulation server

Example Use Cases for 5G Networks

  • Outline of application performance and analyze metrics such as
  • Quality of service
  • Error
  • Throughput
  • Delay
  • Loss
  • Functions of various scenarios through the modifications in the file transfer and video rates
  • Change network parameters such as
  • Mobility
  • Antenna count
  • Transmit power
  • Path loss
  • Bandwidth
  • A typical 5G network
  • Cameras uploading video and phones (UEs) uploading and downloading files.

          Now, let us take a look into the significant research topics based on Ns3 WiFi projects in the following and all these topics are created by our research experts.

Thesis Topics for Ns3 WiFi Projects

  • Simulation and analysis of simultaneous water filling allocation based on fractional frequency reuse for 19 cell network
  • Low complexity channel allocation scheme for URLLC traffic
  • Resource allocation for 5G UAV based emergency wireless communications
  • Multi agent deep reinforcement learning based distributed resource allocation
  • Complexity performance tradeoff in resource allocation for URLLC exploiting dynamic CSI

          In addition, our research professionals have extended our research support for paper publication, thesis writing, assignment writing, proposal writing service and so on for all the research domains. Our research experts used to publish the completed research papers in highly reputed journals such as Elsevier, SCI, Springer, Scopus, IEEE and more within a short period of time. So, reach us to acquire best research assistance from our well knowledge experts.