OMNET++ VEHICULAR PROJECTS

OMNET++ VEHICULAR PROJECTS an important simulation tool used to model wired, wireless and queuing network communication. We ensure OMNET++ to support hardware architecture and distributed or parallel systems. We offer OMNET++ projects for B.TECH final year students with discrete network simulation model and development. We program every model in OMNET++ by C++ class library. OMNET++ provides various simulation frameworks to produce results. We have done more than 90 projects in OMNET++ simulation tool for B.TECH students.

OMNET++ VEHICULAR PROJECTS

Veins simulator:

We implement vein which is a combination of both OMNET++ and SUMO simulator. We process vein to simulate vehicular Adhoc network. To perform inter vehicular communication, we use simulator to run parallel and connect by TCP socket. In veins, we access transmission control protocol by traffic control interface and permit bidirectional coupled simulation for road and network traffic.

Tissues in vehicular networks:

We adopt hybrid electric vehicle which is the mixture of conventional internal combustion engine with electric propulsion system. We simulate electric vehicle and collision system by OMNET++. We eradicate the following issues in vehicular network under various network model and simulation.

The issues are:

Network management.

Security issues.

Power control and management.

Communication protocol model.

Multi channel organization.

Scalability and stability issues.

Simulation channel model.

Wireless body area network:

We implement wireless body area network which is a category of sensor network ensure communication for data transfer by sensor nodes. We apply WBAN to monitor health conditions and to provide various applications. We develop most WBAN projects from IEEE journals.

Features of wireless body area network:

We adopt following features are:

Simple node to ensure communication.

Enhance energy efficient communication among nodes.

Mixture of both wired and wireless network.

Every node in WBAN acts as heterogeneous nodes.

Open flow protocols:

We establish open flow protocol is SDN and ensure communication among data plane and control plane which separate each other. Control path in open flow composed of controller and flows are listed in flow table. We support OMNET++ to simulate.

Real world experiments in open flow network.

Closed system with minimal abstraction of network design.

North bound and south bound in open flow does not have standard abstractions.

Centralized hardware interface ensure usage of vector specific software.

Live streaming in P2P:

We implement live streaming application in P2P which ensure high scalability and low cost performance for streaming applications over internet. We ensure OMNET++ platform with Dena cast simulation framework for P2P live streaming and contain wireless peers as client and server. For multi user environment P2P live streaming require update mechanism to ensure network application consistency.