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Quantum Safe Construction of Authentication and Key Exchange Based on Module Lattices

Publication Type : Conference Proceedings

Publisher : IEEE

Source : 2023 4th IEEE Global Conference for Advancement in Technology (GCAT)

Url : https://doi.org/10.1109/gcat59970.2023.10353320

Campus : Faridabad

School : School of Artificial Intelligence

Year : 2023

Abstract : An authenticated mobile key exchange is necessary for post quantum secure communication over a public channel. It allows two entities to create a secure and unique session key for every communication session. We feel a need to design two party efficient and secure authenticated key agreement. We have also observed all the protocols given above are based on learning with error assumption over a finite ring. The ”Module Learning with Errors” assumption is the more appropriate choice among ”Learning with Errors” and ”Ring Learning with Errors” for designing practical password-authenticated key exchange protocols. With the help of ”Module Learning with Errors” assumption, and by lowering the number of ring polynomials, several implementations of the protocols can be realized. Therefore, this paper contains quantum safe, efficient, and practical ”Module Learning with Errors” assumption based authenticated key agreement protocol. The protocol’s security analysis is presented within the framework of the random oracle model.

Cite this Research Publication : Sayan Banerjee, M Nikhilesh, Ankit Sharma, A G Sreedevi, Saurabh Rana, Dharminder Chaudhary, Quantum Safe Construction of Authentication and Key Exchange Based on Module Lattices, 2023 4th IEEE Global Conference for Advancement in Technology (GCAT), IEEE, 2023, https://doi.org/10.1109/gcat59970.2023.10353320

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