OMNET++ SIMULATION THESIS a discrete event network simulator. It composed of component based C++ simulation library and frameworks. An important component of OMNET++ is component architecture of simulation model. We use network description language to define structure and simulate model requirements for each user. NED provides various features for OMNET++ simulation student projects such as hierarchical, interfaces and component based packages. We assist Research scholars to choose 5G research topics based on current trending topics.
We adopt following characteristics in OMNET++ are:
Run on Linux and Windows.
Expandable in Nature by Adding New Components in Libraries.
Provide Trace and Debugging Function for Simulation.
Focused in Communication Networks.
Support GUI to Display Output.
Wireless Body Area Network:
We develop wireless body area network for final year project to monitor human health condition and measure heart rate blood pressure. An important issue in WBAN is power management. We handle these issues in WBAN with OMNET++ and ensure efficient routing protocols to save power level of low energy sensor nodes. We implement conventional transmission power control algorithm to measure received signal strength of each sensor nodes which evolved from Elsevier papers. We design local node mobility, single node mobility and global node mobility models by OMNET++ simulator.
Vehicular Adhoc Network:
We use Vanet as intelligent transport system to analyze vehicle speed, highway traffic and speed by performing V2V, V2I and V2R communication. By OMNET++ simulation projects, we analyze security issues such as message overhead, location identification in Vanet. We handled end to end delay; authentication framework, low cost message, packet delivery ratio fast and low cost message exchanging process are evaluated by OMNET++ simulation in more than 90+ projects.
Wireless Sensor Network:
We implement WSN composed of various sensor nodes organized in a cooperative way. WSN are deployed in OMNET++ for node formation sending message to neighbor nodes, identify neighbor node location, maintain route table, update hop count address at time of link, failure, analyze remaining energy in sensor nodes and estimate link quality by OMNET++ simulation tool.
Long Term Evaluation Network:
OMNET++ use INET to simulate LTE environment, application and process. By OMNET++ framework, we perform path loss, cell interference; cellular network formation, header compression and decompression, scheduling policies, medium access control layer, shadowing, physical layer process, logical connection establishment, and maintenance are all processed and handled by OMNET++ simulation tool.
Software Defined Network:
We implement software defined network which integrate various network stack application and traditional device to enhance flexibility and automation services in network. We provide SDN as dynamic, cost effective, manageable, and adaptable network. More M.Tech students are interested to do projects in SDN. We design OMNET++ to control and forward function in SDN. We implement OMNET++ as open flow control which is basic element to build SDN solution.
We assist Engineering students and PhD Scholars in implementing OMNeT++ Simulator Projects , Thesis.
We Assist PhD Scholars in Publishing paper under SCI and SCOPUS Journals
CURRENT WORKLOAD – OMNeT++ Simulator Projects in Various Network Domain