Dickson polynomial-based secure group authentication scheme for Internet of Things
Salman Ali Syed, Selvakumar Manickam, Mueen Uddin, Hamed Alsufyani, Mohammad Shorfuzzaman, Shitharth Selvarajan, Gouse Baig Mohammed

TL;DR
This paper introduces a new secure group authentication method for IoT devices using Dickson polynomials and blockchain to reduce costs and improve security.
Contribution
A novel Dickson polynomial-based group authentication scheme for IoT, integrated with blockchain for secure and efficient communication.
Findings
The proposed scheme reduces network traffic overhead while ensuring secure group authentication.
The framework is resistant to multiple types of cyber attacks including replay and man-in-the-middle attacks.
Performance analysis shows the framework outperforms existing methods in computation, communication, and latency.
Abstract
Internet of Things (IoT) paves the way for the modern smart industrial applications and cities. Trusted Authority acts as a sole control in monitoring and maintaining the communications between the IoT devices and the infrastructure. The communication between the IoT devices happens from one trusted entity of an area to the other by way of generating security certificates. Establishing trust by way of generating security certificates for the IoT devices in a smart city application can be of high cost and expensive. In order to facilitate this, a secure group authentication scheme that creates trust amongst a group of IoT devices owned by several entities has been proposed. The majority of proposed authentication techniques are made for individual device authentication and are also utilized for group authentication; nevertheless, a unique solution for group authentication is the Dickson…
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Taxonomy
TopicsCognitive Science and Mapping · Neural Networks and Applications · AI-based Problem Solving and Planning
