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The goal of this project is to implement Mobile WiMax, IPv6 autoconfiguration (with focus on DHCPv6) and some of the mobility related mechanisms in the OMNeT++ environment.
1. FROMS :  a multicast energy-efficient routing protocol for WSNs with reinforcement learning
2. Directed Diffusion, the original one-phase pull version
3. Multicast Directed Diffusion, a multicast optimized version of Directed Diffusion
4. MSTEAM, a geographic multicast routing protocol for WSN more...
The INET Framework is an open-source communication networks simulation package for the OMNeT++/OMNEST simulation environment. The INET Framework contains models for several Internet protocols: UDP, TCP, SCTP, IP, IPv6, Ethernet, PPP, IEEE 802.11, MPLS, OSPF, and several other protocols.

PhoenixSim (Photonic and Electronic Network Integration and Execution Simulator) is a simulation environment for designing and analyzing the performance of photonic interconnection networks, developed by the Lightwave Research Laboratory at Columbia University in the City of New York.

OverSim is an open-source overlay network simulation framework for the OMNeT++/OMNEST simulation environment. The simulator contains several models for structured (e.g. Chord) and unstructured (e.g. GIA) peer-to-peer protocols. more...
SimSANs, Simulating Storage Area Networks, is a Data Center Storage Networking design and simulation tool. It is especially useful in infrastructure design and performance analysis of modern Fibre Channel (and FCoE) based data center storage networks.
This is a basic implementation of Ethernet Passive Optical Network by Andreas B. OLT and ONU modules are defined and they both suport one or multiple LLIDs. MPCP protocol has been implemented on OLT and ONU models to assign LLIDs dynamically.  Since it is under development, many features may be missing.
ReaSE is an open-source network simulation framework for OMNeT++. ReaSE is able to create realistic simulation environments with respect to hierarchical network topologies, self-similar background traffic, and attack traffic based on real attack tools. more...
NoC simulation is a key for NoC architectures research resulting from the huge incurred cost of VLSI prototypes production using modern manufacturing processes. Although several NoC simulators exist, they are either proprietary or built on non standard infrastructure. HNOCS is an open-source implementation of a NoC simulation framework using OMNeT++. The HNOCS framework utilizes the OMNeT++ module interface feature to support runtime selection of simulation modules from a library of parametrized components. For example by setting the opCalcType parameter from "XY" to "XY/YX" the simulation change to use a different output port selection algorithm. The models provided support heterogeneous NoC configuration in terms of link capacity and number of VCs. HNOCS modules available today implement wormhole switching, with round-robin or winner-takes-all arbitration. Current version of HNOCS contains different router implementations: synchronous, asynchronous and a full virtual output queuing (VOQ) with FIFO for each (input VC, output VC and output port) tuple.
This is a new fork of INET Framework developed for hybrid networking research. The INET-HNRL provides new models in both optical and wireless networking areas and their hybrid. Currently, the following models and research frameworks have been implemented:

  • Models for the hybrid TDM/WDM-PON under the SUCCESS-HPON architecture
  • Framework for the equivalent circuit rate (ECR)-based study of next-generation optical access (NGOA) architectures
Author: Kyeong Soo (Joseph) Kim
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