Proceedings Article10.1109/I2C2SW45816.2018.8997157
Multi-factor Based User Authentication Scheme for Lightweight IoT Devices
J. Gowthami,N. Shanthi +1 more
- 01 Dec 2018
5
TL;DR: This paper presents an authentication scheme which uses only simple algebraic operations like hash and XOR, and this makes the proposed authentication scheme more suitable for the lightweight environment of IoT.
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Abstract: Authentication of legitimate user plays a prominent role in security of the Internet of Things (IoT) applications like smart home, smart cities, wearable devices etc. The services offered by IoT devices must be attainable from anyplace and anytime, only by the legitimate users. The existing authentication schemes for IoT applications are not secure, vulnerable to many attacks and also any illegal user may access the data of smart devices. This paper presents an authentication scheme which uses only simple algebraic operations like hash and XOR, and this makes the proposed authentication scheme more suitable for the lightweight environment of IoT. It uses multiple factors like user identity, password, and biometrics for authenticating the legal users. Also, the proposed scheme establishes mutual authentication and key establishment between the users and smart devices involved in the communication. The protocol is modeled using the Security Protocol Description Language and the verification is done using one of the formal verification tools–Scyther. The result from the Scyther tool confirms the security of the protocol and clarifies that it is robust against various known attacks and are more affordable for practical applications.
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Citations
A lightweight mutual and transitive authentication mechanism for IoT network
TL;DR: In this paper , the authors proposed a transitive device authentication protocol based on the Chebyshev polynomial, which utilizes the session key established in the mutual authentication between the intermediate device and gateway.
16
Mutual authentication and data security in IOT using hybrid mac id and elliptical curve cryptography
Harish Kumar N
- 10 May 2021
TL;DR: A light weight Approach has been employed by generating Hybrid MAC ID for mutual authentication and using Elliptical Curve for secure data transfer which provides authentication and data confidentiality in the IoT Network.
Review of Security and Privacy-Based IoT Smart Home Access Control Devices
Sirisha Uppuluri,Lakshmeeswari Gondi +1 more
2
Security Management of Horizontal IoT Platforms: A Survey and Comparison
Anastassia Gharib,Jason Jaskolka,Mohamed Ibnkahla,Ashraf Matrawy +3 more
TL;DR: This paper surveys and compares security management in horizontal IoT platforms, defining and comparing vertical and horizontal platforms, and analyzing the security features of standard-based reference implementations to identify open issues for future research and development.
References
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TL;DR: This paper will present and discuss the technical solutions and best-practice guidelines adopted in the Padova Smart City project, a proof-of-concept deployment of an IoT island in the city of Padova, Italy, performed in collaboration with the city municipality.
The Scyther Tool: Verification, Falsification, and Analysis of Security Protocols
Cas Cremers
- 07 Jul 2008
TL;DR: The most effective approach so far has been automated falsification or verification of such protocols with state-of-the-art tools such as ProVerif or the Avispa tools, which have shown to be effective at finding attacks on protocols or establishing correctness of protocols.
Scyther : semantics and verification of security protocols
Cas Cremers
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TL;DR: This thesis develops a formal model for the description and analysis of security protocols at the process level, and develops an automated veri??cation procedure, which improves over existing methods and is applied in two novel case studies.
A temporal-credential-based mutual authentication and key agreement scheme for wireless sensor networks
TL;DR: A temporal-credential-based mutual authentication scheme among the user, GWN and the sensor node and a lightweight key agreement scheme is proposed to embed into the protocol that is realistic and well adapted for resource-constrained wireless sensor networks.
348
A light weight authentication protocol for IoT-enabled devices in distributed Cloud Computing environment
TL;DR: Security vulnerabilities of the multi-server cloud environment of the protocols proposed by Xue et al. and Chuang et al are shown and an informal cryptanalysis confirms that the protocol is protected against all possible security threats.
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