OMNeT++ Framework Projects

OMNeT++ Framework Projects referred as objective modular network test bed in C++ which is an discrete event network simulation framework. We offer OMNET++ Framework Projects for academic to design and analyze various network such as wireless body area network, wireless mesh network, wireless sensor network, software defined network, mobile Adhoc network and vehicular Adhoc network. We develop OMNET++ with various frameworks such as INET, MIXIM, SUMO, veins and Castalia for research scholars. We write OMNET++ code in C++. We run on OMNET++ in various platforms such as UNIX and windows.


OMNET++ simulation model:

We implement this following model for academic students are

Traffic model.

Multiprocessor and distributed system.

Computer network.

Administrative systems.

Communication protocol.

Needs for SDN projects:

We require following factors are:

Non expensive equipments.

Easy to create network management.

Require flexibility with programmability.

Easy to customize and integrate with software applications.

Layered approach with standard open interface.

We took and develop SDN projects from Elesvier journals and provide efficient result.

OMNET++ simulation framework:

We adopt following framework in OMNET++ simulation are:


Castalia an simulator mainly we implement for wireless body area network (WBAN), wireless sensor network (WSN) and low powered embedded devices. We use this simulator to evaluate various platform characteristics for various applications and simulate wide range of platforms.


We provide INET framework an open source network simulation for OMNET++ simulation environment. We ensure various models with protocol such as IPV6, IP, SCTP, OSPF, UDP, IEEE802.11, TCP, ethernet.


We develop MIXIM framework for mobile and fixed wireless network such as vehicular network, body area network, Adhoc network, wireless sensor network by OMNET++. MIXIM ensure detail description of interference estimation, radio transceiver power consumption, radio wave propagation, wireless MAC protocols.


We implement simulation of urban mobility (SUMO) for road traffic simulation. We model complex interactions with vehicular network influence.


We ensure veins framework to create vehicle network simulation as realistic as possible. We use GUI and IDE OMNET++ and SUMO to quick set up and interactive running simulation.



Networks in OMNET++ simulation:


We develop an emergency method called SDN (software defined network) ensure communication to separate control plane and data plane forwarding elements. It attains benefits such as automated load balancing. Physical infrastructure, demand provision and scalable network resource.

P2P live streaming:

We implement peer to peer live streaming in distributed real time online video contents. By distributing nature it ensures scalable, robustness and flexibility. By this process, we can reduce stream obstacle live events over internet. It is a category of overlay network in which every node simultaneously function as client and server.

Applications of P2P live streaming:

We developed more than 100 P2P live streaming application projects by our concern. Some of the applications are listed as follows:

File sharing application.

Collaboration application.

Distributed computing application.