Micro-application security authentication based on key agreement hybrid encryption algorithm

Lu Chen; Mu Chen; Zaojian Dai; Shuo Niu

doi:10.1117/12.2683350

26 June 2023 Micro-application security authentication based on key agreement hybrid encryption algorithm

Lu Chen, Mu Chen, Zaojian Dai, Shuo Niu

Proceedings Volume 12721, Second International Symposium on Computer Applications and Information Systems (ISCAIS 2023); 1272104 (2023) https://doi.org/10.1117/12.2683350
Event: 2023 2nd International Symposium on Computer Applications and Information Systems (ISCAIS 2023), 2023, Chengdu, China

Abstract

With the widespread use of micro-application-based architecture for power mobility, ensuring secure authentication of users has become one of the challenges that cannot be ignored. Based on this, this paper first analyses the primary process and problems of the existing token authentication scheme. Then it proposes the overall architecture and model of secure authentication under this scheme for the security of token communication in the authentication process and uses an improved hybrid encryption algorithm for key agreement to solve the limitations of a single encryption algorithm for encrypting tokens. Finally, it can resist network attacks such as frequent replay and man-in-the-middle after security analysis. Experiments also verify that the scheme can guarantee users’ secure authentication.

Citation Download Citation

Lu Chen, Mu Chen, Zaojian Dai, and Shuo Niu "Micro-application security authentication based on key agreement hybrid encryption algorithm", Proc. SPIE 12721, Second International Symposium on Computer Applications and Information Systems (ISCAIS 2023), 1272104 (26 June 2023); https://doi.org/10.1117/12.2683350

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