NETWORK SIMULATOR PROJECTS

NETWORK SIMULATOR PROJECTS

     Network Simulator Projects provides you a platform to nurture your ideas into your research. Being global leaders for our technological innovations and development, we offer you a platform to uplift your career. Our Network Simulator Projects offers you innovative and pioneer ideas to enlighten your projects to make it attractive and ground breaking. Our values like Integrity, clear thoughts and service minded support will give you immense pleasure, while working with us. We have developed nearly 1000+ network simulator projects and served students from all over the world. Our online guidance and support have benefitted plenty of students worldwide. If you want to feel our work and standard, commit with us, we will support you up to you succeed in your career. Let’s know about Network simulators before start working on it.

HIGHLIGHTS ABOUT NETWORK SIMULATORS:

  • Provides analytical modeling, computer simulation and real time physical measurement
  • Used to study the behavior and un-expected phenomenon of the system
  • New hardware designs, physical layouts can tested prior to its real time implementation
  • Time can be compressed or expanded and results are accurate
  • Bottleneck analysis can be performed to discover the system delay
  • It is cost effective method for Network design validation of enterprise and data centres , network protocol research, defense applications etc
  • Hardware interfacing can be done using NS3[ns-3 scripts to drive real hardwares], OMNET++[Hardware in the loop], OPNET[System in the loop module]

FEW MOST SIGNIFICANT SIMULATORS:

Commercial Simulators:

OPNET:

  • Latest version[18.5.1]
  • Provides performance management for computer networks and applications
  • Platform support[Windows, Red hat linux]

QUALNET:

  • Version[Glomosim-2.03]
  • Simulates wireless and wired communication networks
  • Platform independent

NETSIM:

  • Version[Netsim 11]
  • Simulates Cisco systems networking hardware and software
  • Supported OS[windows7, XP, Vista]

Open Source Simulators:

NS2:

  • Current version[2.35]
  • Object oriented discrete event simulator used for simulating local and wide area networks
  • Platform support[Unix, Linux, FreeBSD, SunOS, Solaris]

NS3:

  • Stable version[NS-3.25]
  • Discrete event simulator used to simulate Internet systems
  • Used for research and educational purpose
  • Platform support- Linux, FreeBSD, MAC OS X,windows

OMNET++:

  • Latest version[OMNET++ 5.0]
  • Modular and component based C++ simulation library, used to stimulate both wired and wireless networks
  • Platform support[Windows, Linux, MAC OS X]

REAL:

  • Version[QualNet 7]
  • Used for network planning, testing and training tool
  • Platform support[Windows, Linux, CentOS 5.10, Red Hat Enterprise Linux 5.9, Ubuntu 12.04 LTS]

J-SIM:

  • Version[1.3]
  • Known as JavaSim- it is a component based compositional simulation environment
  • Platform independent

CLOMOSIM:

  • Latest version[REAL 5.0]
  • Used to study the behavior of flow and congestion control in packet switched data networks
  • Platform support[Digital Unix, Sun OS, IRIX, BSD4.3, Ultrix, Solaris, UMIPS]

PROGRAMMING LANGUAGES WITH EXTENSION:

NS2:

  • Language support[C++(.cc, .h), OTCL(.tcl)]
  • C++[detailed protocol design] and OTCL[for initiating event schedulers, network topology and user controls]

NS3:

  • Language support [C++(.cc, .h), Python(.py)]
  • C++ is main language and python[python binding] works as scripting language

OPNET:

  • Language support[C(.c), C++(.cc)]
  • Main language[C] , C++ is supported by latest released version

NetSim:

  • Language support[Java(C/C++-.java)]
  • Provides platform independent and creates web based programs

OMNet++:

  • Language support[C++(.cc,.h)]
  • Component based architecture where modules are created using C++

REAL:

  • Language support[C(.c)]
  • Creates graph structures using C

J-Sim:

  • Language support[Java(.java), TCL(.tcl)]
  • JSim provides classes for simulation, process and queue and TCL is used to glue all the components

Glomosim:

  • Language support[Parsec-C(.pc,.c,.h)]
  • Built using Parser[C based simulation language]

Qualnet:

  • Language support[C/C++(.cc, .h, .cpp)]
  • Use C/C++ for protocol implementation

TOOLS AND PLUGIN DETAILS:

 NESSI:

  • Network security simulator
  • Major capabilities[profile based automated attack generation, traffic analysis, detection algorithm plugins]

VEINS:

  • Open source simulator for VANET
  • Combination of OMNET++ and SUMO

LENA:

  • Open source product oriented LTE/EPC Network simulator
  • Integrates with ns-3

EVALVID:

  • Used to evaluate the quality of video transmitted over real or simulated networks
  • Evaluates MPEG video transmission using NS2 simulator

SIMULTE:

  • Tool for performance evaluation of LTE and LTE advanced networks in Omnet++ framework
  • Written in C++ with customizable pluggable interface

SUMO:

  • OpneGL graphical user interface support
  • Manages large environments

RIVERBED BROWSERMETRIX PLUGIN:

  • Used to monitor web page performance

GNS3:

  • Open source software used to stimulate complex networks
  • Provides GUI interface to design and configure virtual networks and runs in windows, Linux and Mac OS X

MININET:

  • Supports Software defined networks
  • Creates realistic virtual network, running real kernel, application code on single machine.

PSIMULATOR2:

  • Simple graphical Linux and Cisco network simulator used for educational purposes.
  • Creates virtual networks consist of Linux and Cisco routers and switches

IMUNES[Network emulation framework]

LIBRARIES AND FRAMEWORKS USED:

Mannasim:

  • Used for wireless sensor network simulation
  • Contains Mannasim framework and script generator tool

NS-3 Vns-3.11:

  • Used as energy consumption modeling

RealCloudSim:

  • Used as a simulator to allocate virtual machines based on main engine

NS2 Miracle:

  • Provides multi technology and cross layer support in NS2

INET Framework:

  • Standard protocol library for OMNET++
  • Contains models for Internet stack, wired and wireless link layer protocols, MANET protocols and several application models.

DATABASE USED:

  • NS-2[MySQL]
  • NS-3[SQLite3, uses statistical frameworks]
  • OPNET[Oracle, SQL, DB2,UDB, Sybase, Teradata, Informix]
  • OMNET++[Interface with external SQL]

IMPORTANT PROTOCOLS AND ALGORITHMS USED:

Energy Efficient Routing Protocols:

  • Total transmission power[MTPR, MPR]
  • Remaining energy capacity[MBCR,MMBCR, EAPR,TDOP, LEARAODV]
  • Remaining node lifetime[MDR,LPR]
  • Combinational approach[CMMBC R, PSR, PAOD]

Routing Algorithms:

  • Arc routing
  • A* search algorithm
  • B* protocol
  • Augmented tree based routing protocol
  • Backpressure routing
  • Credit based fair queuing
  • Babel(protocol)
  • Contraction hierarchies
  • Dijkstra’s algorithm
  • Distance vector routing protocol
  • Equal cost multi path routing
  • Expected transmission count
  • Diffusing updata algorithm
  • Flood search algorithm
  • Geographic routing
  • Edge disjoint shortest pair algorithm
  • Greedy embedding algorithm
  • Fairness measure
  • Floyd Warshall algorithm
  • Hierarchical state routing
  • MCOP

 

   Hope so, you may feel contented with our information. If you feel to know more network simulator projects, you can approach us anytime (Online-24/7). Along with network simulator projects, we also provide support for thesis work, journal publications and conference papers.  

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