Journal Article10.1109/tii.2022.3201971
An Improved Lightweight Two-Factor Authentication Protocol for IoT Applications
16
TL;DR: In this paper , the authors proposed an improved two-factor authentication protocol to provide strong mutual authentication and overcome the mentioned issues, and performed a security analysis of the proposed scheme using Burrows-Abadi-Needham logic.
read more
Abstract: The Internet of things (IoT) is defined as a network of connected objects or devices that gather information and share or exchange them through communication systems. In many applications, maintaining the privacy and security of the exchanged data is of great importance. Therefore, protecting sensitive data against security threats is a major concern in IoT applications. Using multifactor authentication protocols is an efficient solution to provide these features. Recently, a two-factor authentication protocol using physical unclonable functions and wireless fingerprints has been proposed by Aman et al. In this article, we first analyze Aman et al.’s protocol and discuss its weaknesses and vulnerabilities. Then, we propose an improved two-factor authentication protocol to provide strong mutual authentication and overcome the mentioned issues. The informal security analysis of the proposed scheme demonstrates that it is resistant to several well-known attacks. We also perform a security analysis of the proposed scheme using Burrows–Abadi–Needham logic. We further evaluate the proposed protocol in terms of computational complexity and security features. The results demonstrate that our scheme has significantly better computational efficiency and provides better security features compared to Aman et al.’s protocol.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Two-Factor Privacy Preserving Protocol for Efficient Authentication in Internet of Vehicles Networks
Zaid Ameen Abduljabbar,Chengwen Luo,Jin Zhang,Jun Ling Ma +3 more
TL;DR: An efficient authentication scheme is presented based on lightweight cryptographic primitives, such as collision-resistant one-way hashing functions and exclusive OR (XOR) operations, which offers anonymity, untraceability, and key secrecy as well as resilience against numerous IoV attack vectors.
19
ESCI-AKA: Enabling Secure Communication in an IoT-Enabled Smart Home Environment Using Authenticated Key Agreement Framework
Hisham Alasmary,Muhammad Quaiser Tanveer +1 more
TL;DR: A lightweight and efficient authentication framework for a smart home environment by leveraging the features of an authenticated encryption scheme and the hash function called “ESCI-AKA”, which requires low computational and communication costs while providing robust security features.
16
<i>V2G-Auth</i>: Lightweight Authentication and Key Agreement Protocol for V2G Environment leveraging Physically Unclonable Functions
01 Jan 2023
TL;DR: In this paper , the authors proposed a lightweight protocol for key agreement and mutual authentication between entities operating in a V2G environment, and assessed the proposed scheme using the Scyther tool to conduct formal and informal security analyses to demonstrate how effectively it can counteract known security attacks.
14
A Practical and Provably Secure Authentication and Key Agreement Scheme for UAV-Assisted VANETs for Emergency Rescue
Jie Cui,Xinzhong Liu,Hong Zhong,Bing Zhang,Lu Hong Wei,Irina Bolodurina,Debiao He +6 more
TL;DR: This work proposes a lightweight, provably secure, and practical two-factor AKA scheme for UAV-assisted VANETs based on chaotic maps by adopting techniques including fuzzy verifiers and honeywords, and proposes a hybrid generation algorithm to optimize the storage of honeywords.
9
WSNEAP: An Efficient Authentication Protocol for IIoT-Oriented Wireless Sensor Networks
TL;DR: The proposed protocol introduces a pre-authentication mechanism to achieve continuous authentication between the gateway and the cloud server, and reduces the computing cost and communication cost on the wireless sensor side and the overall computational cost of the protocol.
References
On the security of public key protocols
Danny Dolev,Andrew Chi-Chih Yao +1 more
TL;DR: Several models are formulated in which the security of protocols can be discussed precisely, and algorithms and characterizations that can be used to determine protocol security in these models are given.
Physical Unclonable Functions and Applications: A Tutorial
Charles Herder,Meng-Day (Mandel) Yu,Farinaz Koushanfar,Srinivas Devadas +3 more
- 30 May 2014
TL;DR: This paper motivates the use of PUFs versus conventional secure nonvolatile memories, defines the two primary PUF types, and describes strong and weak PUF implementations and their use for low-cost authentication and key generation applications.
1.2K
Universally Composable Notions of Key Exchange and Secure Channels
Ran Canetti,Hugo Krawczyk +1 more
- 02 May 2002
TL;DR: Canetti and Krawczyk as discussed by the authors showed that the notion of SK-security is strictly weaker than a fully-idealized notion of key exchange security, but it is sufficiently robust for providing secure composition with arbitrary protocols.
Lightweight and Privacy-Preserving Two-Factor Authentication Scheme for IoT Devices
Prosanta Gope,Biplab Sikdar +1 more
TL;DR: This paper presents a lightweight and privacy-preserving two-factor authentication scheme for IoT devices, where physically uncloneable functions have been considered as one of the authentication factors and is very efficient in terms of computational efficiently.
Mutual Authentication in IoT Systems Using Physical Unclonable Functions
TL;DR: A security and performance analysis of the protocols shows that they are not only robust against different types of attacks, but are also very efficient in terms of computation, memory, energy, and communication overhead.
307