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Telecare Medical Information System (TMIS) supports a standard platform to the patient for getting necessary medical treatment from the doctor(s) via Internet communication. Security protection is important for medical records (data) of the patients because of very sensitive information. Besides, patient anonymity is another most important property, which must be protected. Most recently, Chiou et al. suggested an authentication protocol for TMIS by utilizing the concept of cloud environment. They claimed that their protocol is patient anonymous and well security protected. We reviewed their protocol and found that it is completely insecure against patient anonymity. Further, the same protocol is not protected against mobile device stolen attack. In order to improve security level and complexity, we design a light weight authentication protocol for the same environment. Our security analysis ensures resilience of all possible security attacks. The performance of our protocol is relatively standard in comparison with the related previous research.

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Provably Secure Identity-Based Signcryption Scheme for Crowdsourced Industrial Internet of Things Environments

Karati

Islam

Biswas

et al. 2018

IEEE Internet Things J.

105

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An Efficient Pairing-Free Certificateless Signcryption Without Secure Channel Communication During Secret Key Issuance ☆

Karati

Fan

Huang³

2020

Procedia Computer Science

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Provably Secure and Generalized Signcryption With Public Verifiability for Secure Data Transmission Between Resource-Constrained IoT Devices

Karati

Fan

Hsu

2019

IEEE Internet Things J.

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A Two-Factor RSA-Based Robust Authentication System for Multiserver Environments

Amin¹,

Islam²,

Khan³

et al. 2017

Security and Communication Networks

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The concept of two-factor multiserver authentication protocol was developed to avoid multiple number of registrations using multiple smart-cards and passwords. Recently, a variety of two-factor multiserver authentication protocols have been developed. It is observed that the existing RSA-based multiserver authentication protocols are not suitable in terms of computation complexities and security attacks. To provide lower complexities and security resilience against known attacks, this article proposes a twofactor (password and smart-card) user authentication protocol with the RSA cryptosystem for multiserver environments. The comprehensive security discussion proved that the known security attacks are eliminated in our protocol. Besides, our protocol supports session key agreement and mutual authentication between the application server and the user. We analyze the proof of correctness of the mutual authentication and freshness of session key using the BAN logic model. The experimental outcomes obtained through simulation of the Automated Validation of Internet Security Protocols and Applications (AVISPA) S/W show that our protocol is secured. We consider the computation, communication, and storage costs and the comparative explanations show that our protocol is flexible and efficient compared with protocols. In addition, our protocol offers security resilience against known attacks and provides lower computation complexities than existing protocols. Additionally, the protocol offers password change facility to the authorized user.

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A pairing-free and provably secure certificateless signature scheme

Karati

Islam

Biswas

2018

Information Sciences

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Provably Secure and Lightweight Identity-Based Authenticated Data Sharing Protocol for Cyber-Physical Cloud Environment

Karati

Amin

Islam

et al. 2021

IEEE Trans. Cloud Comput.

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Arijit Karati

Provably Secure and Lightweight Certificateless Signature Scheme for IIoT Environments

A Standard Mutual Authentication Protocol for Cloud Computing Based Health Care System

Provably Secure Identity-Based Signcryption Scheme for Crowdsourced Industrial Internet of Things Environments

An Efficient Pairing-Free Certificateless Signcryption Without Secure Channel Communication During Secret Key Issuance ☆

Provably Secure and Generalized Signcryption With Public Verifiability for Secure Data Transmission Between Resource-Constrained IoT Devices

A Two-Factor RSA-Based Robust Authentication System for Multiserver Environments

A pairing-free and provably secure certificateless signature scheme

Provably Secure and Lightweight Identity-Based Authenticated Data Sharing Protocol for Cyber-Physical Cloud Environment

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