Efficient Multi-Factor Authenticated Key Exchange Scheme for Mobile Communications - 2017


Authenticated key exchange (AKE) is one of the most important applications in applied cryptography, where a user interacts with a server to line up a session key where pre-registered data (aka. authentication factor), such as a password or biometrics, of the user is stored. Whereas single-issue AKE is widely employed in practice, higher security considerations call for multi-factor AKE (MFAKE) schemes, e.g. combining both passwords and biometrics simultaneously. However, in some casually designed schemes, security is even weakened in the way that leakage of one authentication issue will defeat the full MFAKE protocol. Furthermore, an inevitable by-product arise that the usability of the protocol usually drop greatly. To summarize, the prevailing multi-factor protocols didn't offer enough security and potency simultaneously. In this paper, we have a tendency to create one step ahead by proposing a very economical MFAKE protocol. We tend to outline the protection model and give the according security analysis. We have a tendency to additionally implement our protocol on a smartphone and a cloud server. The theoretic comparisons and the experimental results show that our scheme achieves each security and usability.

Did you like this research project?

To get this research project Guidelines, Training and Code... Click Here

PROJECT TITLE :Efficient Secure Outsourcing of Large-Scale Sparse Linear Systems of Equations - 2018ABSTRACT:Solving large-scale sparse linear systems of equations (SLSEs) is one in all the foremost common and basic problems in
PROJECT TITLE :Distributed Feature Selection for Efficient Economic Big Data Analysis - 2018ABSTRACT:With the rapidly increasing popularity of economic activities, a large amount of economic data is being collected. Although
PROJECT TITLE :Efficient Wideband DOA Estimation Through Function Evaluation Techniques - 2018ABSTRACT:This Project presents an economical analysis methodology for the functions involved within the computation of direction-of-arrival
PROJECT TITLE :Efficient System Tracking With Decomposable Graph-Structured Inputs and Application to Adaptive Equalization With Cyclostationary Inputs - 2018ABSTRACT:This Project introduces the graph-structured recursive least
PROJECT TITLE :Efficient Partial-Sum Network Architectures for List Successive-Cancellation Decoding of Polar Codes - 2018ABSTRACT:List successive cancellation decoder (LSCD) architectures have been recently proposed for the decoding

Ready to Complete Your Academic MTech Project Work In Affordable Price ?

Project Enquiry