Extension Mechanism of Overlay Network Protocol to Support Digital Authenticates
Kazushige Matama, Ren Goto, Chihiro Nishiwaki, Katsuhiro Naito
Proceedings of the 26th World Multi-Conference on Systemics, Cybernetics and Informatics: WMSCI 2022, Vol. I, pp. 81-86 (2022); https://doi.org/10.54808/WMSCI2022.01.81
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The 26th World Multi-Conference on Systemics, Cybernetics and Informatics: WMSCI 2022
Virtual Conference July 12 - 15, 2022 Proceedings of WMSCI 2022 ISSN: 2771-0947 (Print) ISBN (Volume I): 978-1-950492-64-0 (Print) |
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Abstract
The spread of systems has shifted from being centered on the same network to communicating through various network environments. As systems in diverse network environments increase, zero-trust security is attracting attention. Achieving zero-trust security requires building security for all devices, making an effort to create it a challenge. Therefore, a communication framework is in need as a security measure. We have been developing CYber PHysical Overlay Network over Internet Communication (CYPHONIC) to realize secure end-to-end communication among devices. Conventional CYPHONIC supports only password-based authentication. However, it is necessary to support digital certificate authentication considering the use of IoT devices. In addition, verifying the legitimacy between terminals is necessary for communication between IoT devices. This paper introduces digital certificates based on Public Key Infrastructure (PKI), which is suitable for the extended authentication method of IoT devices. We confirmed that the proposed authentication system could work without the impractical overhead.
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