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

MANET SIMULATION

Introduction of Manet Simulation:  A mobile ad hoc network is the group of mobile nodes developed as a short-term network and not verified by the predefined structure. Manet is the separate system filled with nodes or routers which is connected with the wireless links and it is the combination of communication network model along with the arbitrary communication graphVital Uses of Manet

Hereby, we have listed down the significant advantages in the Manet simulation

  • It is used as the hyper-connectivity in the multimedia services
  • It is used to execute the audio and video communication among the users with standards of SIP and H. 323 
  • It is utilized to create the novel scheduling approach with the mobile nodes of context-aware and the connectivity

Notable Modules in Manet 

           Let us discuss the modules with their functions which is more important in the research process and it is helpful for the research scholars to implement their research in the Manet simulation

Modules and their Functions

  • Flow Monitor
    • It is utilized to implement the monitoring and transmission process in the network simulation
  • MCast
    • It is used to execute the multicast process
  • LTE
    • It is used to execute the 4G related communication among the mobile nodes

Foremost Plugins in Manet 

           Our research experts have listed down the substantial plugins in the Manet simulation with their functions

Plugins with its Uses

  • Analog Plugin
    • The addition of novel tasks used to execute the difficult simulation performance in the mobile ad hoc network routing protocols such as the analog plugins

Dynamic Classes in Manet 

           We have explained three prime classes of Manet simulation below but the research students can use numerous classes. We can provide in-depth analysis and implementation support for the selected class

Classes with its Uses

  • SRMH Header Class
    • It supports to implement of the packet transmission process in NS2 and the source code is srm.h and srm.cc
  • LMS Nak Timer Class
    • It is used to execute the lightweight multicast service process and the source code is placed in the lms-receiver.cc files
  • AODV Header Class
    • It is used to apply the routing process among the mobile nodes and the source code is placed in the aodv.h and aovd.cc files

Fundamental Tools in Manet 

           The Manet has been integrated with the below mentioned tools. These are just sample tools for reference purposes in addition the research scholars can contact us to get more details about other such tools

Tools with its Purposes

  • OMNET++ Simulation
  • Cooja Simulation
    • It is imported with Java to create the tasks in jar files
    • The power consumption, specifics about the nodes, and network performance are demonstrated by the integration of collet view packages

System Specifications in Manet 

           Below are fundamental programming languages used in the Manet projects, research scholars can choose several scripting languages and can get our comprehensive guide for the research project implementation?

Performance Metrics of Manet Simulation

Programming Languages in Manet

  • OMNET++
    • ini format files
  • NS3
    • Python
  • NS2
    • Awk script

Fundamental operating system requirements of the Manet are listed below. Research scholars can reach our technical expert for the configuration support

OS Support in Manet

  • Contiki-3.0
  • Ubuntu-16.04
  • Windows-8 64 bit

The following is about the versions for Manet simulation similarly research scholars can select various tools and get complete details about them by reaching our research experts

Versions in Manet

  • OMNET++ 5.0
  • NS-3. 29
  • NS-2

Major Protocols in Manet 

           The protocols are listed below for your understanding but there are various protocols that can be implemented in Manet. We are here to help you to locate the best protocol for your project implementation

  • DSDV
    • Destination sequenced distance vector is related to the table-driven algorithm with bellman ford routing mechanism and it is based on the hop by hop vector routing protocol
  • DSR
    • Dynamic source routing is used to route the protocols in wireless mesh networks
    • It is parallel to AODV when it demands the transmitting node
  • MDART
    • Multipath dynamic addressing routing is related to the module routing protocol

Important Parameters of Manet Simulator 

           Below are the parameters and metrics which define the overall output of the project Manet simulation

  • Reliability
    • It is the ability of the network based on the utilized mechanisms and algorithms
  • Jitter
    • It is used to calculate the variations in the latency packets in terms of second (s) and millisecond (ms)
  • Latency
    • It is used to measure the time taken by the first bit to travel the transmitter and calculated in terms of second (s) and millisecond (ms)
  • Scalability
    • It is used to increase the size of networks as per the nodes

Subject Based Modules in Manet

The following is about the research subjects with the suitable modules in the Manet simulation

  • Simulation in OMNET++ is the platform for the 4G communication
  • Trace in NS 2 is used to create the simulation log files
  • Queue in NS 2 is deployed to create the packet transmission queue
  • Traffic in NS 3 is utilized to state the traffic flow

Channel Allocation Syntax in Manet

           For your reference, we have highlighted the key syntaxes in the Manet simulation

in ns3, make a channel allocation, by using 

YansWifiChannelHelper wifiChannel;

wifiPhy.SetChannel (wifiChannel.Create ());

in ns2, make a channel allocation , by using 

set val(chan) Channel/WirelessChannel

        $ns_ node-config -adhocRouting $val(rp) \

                  ……

                   -channelType $val(chan) \

in omnet++ , make a channel allocation , by using 

**.Edge*.**.channelNumber = 0

**.Edge*.channelControl.carrierFrequency = 2.4GHz

**.channelControl.pMax = 2.0mW

**.channelControl.sat = -110dBm

**.channelControl.alpha = 2

**.channelControl.numChannels = 1

Topical Applications in Manet         

 Foremost applications which develop the Manet simulation are listed below

  • Attackers are detected using collective datasets
  • Outline of trust simulation application
  • Blockchain-based malicious detection

Key Algorithms in Manet

           Listed below are several algorithms used in recent Manet simulation-based applications but we offer support for all types of algorithms to provide efficient and accurate results

  • SAODV
    • It is one of the secure routing protocols and related to the trust model of mobile ad hoc network
    • It is used to develop the performance in Manet and it offers security for Manet

Research Areas in Manet 

           We have listed out the most recent research areas here for research scholars to get a quick grasp of the Manet simulation

  • Generally, Manet is related to the multi-hop wireless and peer to peer networks this used to transmit the data packets and forward that to the arbitrary destination through the intermediate nodes
  • Military units use the tactical or military Manets along with the data security, integration, data rate, fast rerouting mobility, radio range, concurrent requirements and etc.

Performance Metrics in Manet

           Mostly, the metrics are involved in the evaluation process of the Manet simulation research projects. Here, we have listed down the notable metrics

  • Lifetime of Nodes
  • Jitter
  • End to End Delay

Important Process in Manet

           Let us discuss the significant process used in the Manet simulation

  • The notable demand of Manet is the network which is spread out as nodes or devices and they are portable, it leads to result that there is the lack of stable infrastructure and it provides several applications in various areas
  • It is used to develop the network capacity through mobility and it results in a highly performing network

Substantial Steps in Manet

           Our research experts have listed down the steps involved in the process of the Manet simulation

  • The network is designed with a particular amount of entities
  • Implementation of the node configuration process
  • Executes the significant notions of simulation such as routing, malicious detection, clustering and etc.

Comparative Study in Manet Simulation

           Let us discuss the quality of service which is used to produce the best results in the

QoS in Manet

  • Energy of nodes
  • Stability
  • Congestion
  • Delay

QOE in Manet

Hereby, we have highlighted the quality of experience based on the Manet simulation. MCQR is used to regulate the jitter and end-to-end delay of the data packet which is transmitted to the destination through the lifetime of the routes with increased permissible delay. Hybrid network is created to demonstrate the efficiency of MCQR in video streaming. The MCQR protocols deliver an adequate quality of experience for the end-users.

Routing Protocols in Manet Simulation

Therefore, our research experts have highlighted the routing used in the Manet simulation

  • EIGRP
  • AOMDV
  • OLSR