Model Driven Architecture for Decentralized Software Defined VANETs

@inproceedings{Kazmi2016ModelDA,
  title={Model Driven Architecture for Decentralized Software Defined VANETs},
  author={Afza Kazmi and Muazzam Ali Khan and Faisal Bashir and Nazar Abbas Saqib and Muhammad Alam and Masoom Alam},
  year={2016},
  url={https://api.semanticscholar.org/CorpusID:64416903}
}
This work has proposed decentralized architectural solution that scales out overall network intelligence into respective local controllers that result in unprecedented elasticity and resource availability for large scale VANET.
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4 Citations
Background Citations
2
Methods Citations
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4 Citations

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21 References

DeVANET: Decentralized Software-Defined VANET Architecture

This research is going to exploit SDN planes by partitioning Vanet to work in distributed manner, and results show an increase in performance gains as compared to traditional Vanet architectures.

Towards software-defined VANET: Architecture and services

It is demonstrated how Software-Defined Networking (SDN), an emerging network paradigm, can be used to provide the flexibility and programmability to networks and introduces new services and features to today's VANETs.

Software defined networking-based vehicular Adhoc Network with Fog Computing

A new VANET architecture called FSDN is proposed which combines two emergent computing and network paradigm Software Defined Networking (SDN) and Fog Computing as a prospective solution and provides flexibility, scalability, programmability and global knowledge.

Software-Defined Networking for RSU Clouds in Support of the Internet of Vehicles

A novel roadside unit (RSU) cloud, a vehicular cloud, as the operational backbone of the vehicle grid in the Internet of Vehicles (IoV), and an efficient heuristic approach to minimize the reconfiguration costs is proposed.

DISCO: Distributed multi-domain SDN controllers

This paper proposes DISCO, an extensible DIstributed SDN COntrol plane able to cope with the distributed and heterogeneous nature of modern overlay networks and is implemented on top of the Floodlight OpenFlow controller and the AMQP protocol.

An OpenFlow extension for the OMNeT++ INET framework

This paper describes the implementation of the model of the OpenFlow system in the INET framework for OMNeT++ and uses the simulation model to assess the round-trip-times in a theoretical OpenFlow deployment in a real topology of a North-American Testbed.

Exploiting locality in distributed SDN control

This paper establishes a connection to the field of local algorithms and distributed computing, and shows that existing local algorithms can be used to develop efficient coordination protocols in which each controller only needs to respond to events that take place in its local neighborhood.

Distributed control plane for software-defined networks: a case study using event-based middleware

By proposing a methodology for an application-aware control distribution, it is shown that application-awareness is significantly beneficial in avoiding the synchronization bottlenecks for ensuring consistency in the presence of concurrent network updates and thus greatly improves the responsiveness of the control plane.

LTE4V2X: LTE for a Centralized VANET Organization

LTE4V2X is presented, a novel framework for a centralized vehicular network organization using LTE that takes advantage of a centralized architecture around the eNodeB in order to optimize the clusters management and provide better performances.

Vehicular cloud networking: architecture and design principles

This article examines how VANET evolves with two emerging paradigms: vehicular cloud computing and information-centric networking, and envisages a new vehicular networking system,Vehicular cloud networking, on top of them.