Journal Article10.1109/icicv62344.2024.00129
A Security Enhanced Authentication Protocol
Sai Sreekar Vankayalapati,Srijanee Mookherji,Vanga Odelu +2 more
- 11 Mar 2024
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TL;DR: The original authentication and key exchange protocols are vulnerable to replay, modification, and technical errors. Proposed enhancements address these vulnerabilities without compromising performance.
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Abstract: Internet of Things (IoT) have gained popularity in recent times. With an increase in the number of IoT devices, security and privacy vulnerabilities are also increasing. For sensitive domains like healthcare and industrial sectors, such vulnerabilities can cause havoc. Thus, authentication is an important aspect for establishing a secure communication between various participants. In this paper, two recent authentication and key exchange protocols are studied. It is demonstrated that these protocols are susceptible to replay attacks, modification attacks, and technical correctness issues. Possible improvements to address these vulnerabilities are also presented. The enhancements are designed to preserve the performance of the original protocols.
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Citations
An Enhanced Authentication Protocol for IoT-AmI Environment
Shree Chand Khichar,Awaneesh Kumar Yadav,Manoj Misra,Brij B. Gupta +3 more
- 27 May 2024
TL;DR: The proposed secure authentication protocol for IoT-AmI systems is verified using the formal analysis tool Scyther, and the performance of the designed protocol is assessed to show that it has lower computational and communication costs compared to existing protocols.
References
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Yevgeniy Dodis,Leonid Reyzin,Adam Smith +2 more
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TL;DR: This work provides formal definitions and efficient secure techniques for turning biometric information into keys usable for any cryptographic application, and reliably and securely authenticating biometric data.
An efficient ECC-based provably secure three-factor user authentication and key agreement protocol for wireless healthcare sensor networks
Sravani Challa,Ashok Kumar Das,Vanga Odelu,Neeraj Kumar,Saru Kumari,Muhammad Khurram Khan,Athanasios V. Vasilakos +6 more
TL;DR: A provably secure three-factor user authentication and key agreement protocol for wireless healthcare sensor networks and the simulation through the widely-known Automated Validation of Internet Security Protocols and Applications (AVISPA) tool shows that the scheme is also secure.
235
Biometrics-Based Privacy-Preserving User Authentication Scheme for Cloud-Based Industrial Internet of Things Deployment
TL;DR: This paper proposes a new biometric-based privacy preserving user authentication (BP2UA) scheme for cloud-based IIoT deployment that consists of strong authentication between users and smart devices using preestablished key agreement between smart devices and the gateway node.
220
3P-SAKE: Privacy-preserving and physically secured authenticated key establishment protocol for wireless industrial networks
TL;DR: Physically unclonable functions (PUF), hash, and XOR operations are used in the proposed method to attain robustness and efficiency and the scheme’'s other benefits include low computational cost, retaining the device’s confidentiality, safety from major security threats, low communication, and storage overhead.
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A user-centric privacy-preserving authentication protocol for IoT-AmI environments
TL;DR: In this paper , the authors proposed a secure authentication protocol for AmI-IoT healthcare applications using blockchain and fog computing in order to guarantee unforgeability, non-repudiation, transparency, low latency, and efficient bandwidth utilization.