Cloud computing-based Elliptic Curve Augmented Encryption framework for Vehicular Ad-Hoc Networks

The purpose of this research work is to develop a framework, which can provide message authentication for communication that occurs in a vehicular network. The main aim of the research work is to provide a high level of security and encryption for the messages that are being transferred in the vehicular network. The networks are provided with augmented encryption scheme with different approaches to have secure and private communication. The research is based on the Cloud computing-based Elliptic Curve Augmented Encryption framework for Vehicular Ad-Hoc Networks. The research for this project is done with the help of the VEA (VANET network data, Elliptic encryption, Authenticated messages) framework. The given system provides more efficient and accurate system architecture for the communicating messages in the vehicular ad hoc network with the help of different approaches for performing the encryption on the messages that are being transferred. This encryption architecture leads to increased security in the system. State of the art had comparatively lower accuracy in communication. The utilization of various algorithms for providing the encryption to the messages resulting in the increased authentication in communication and improves the efficiency and accuracy of the solution. The research has the goal to provide highlevel security architecture for message authentication with accuracy, sensitivity, specificity, computation and communication with the help of encryption algorithms.