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An improved ID-based client authentication with key agreement scheme on ECC for mobile client-server environments

Islam S.K. Hafizul G.P. Biswas
Theoretical and Applied Informatics | 2012 | vol. 24 | No 4
Keywords elliptic curve cryptography identity-based cryptosystem mutual authentication session key users’ anonymity client-server environment
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Abstract

In wireless mobile networks, a client can move between different locations while staying connected to the network and access the remote server over the mobile networks by using their mobile de- vices at anytime and anywhere. However, the wireless network is more prone to some security attacks, as it does not have the ingrained physical security like wired networks. Thus, the client authentication is required while accessing the remote server through wireless network. Based on elliptic curve cryptosystem (ECC) and identity-based cryptography (IBC), Debiao et al. proposed an ID-based client authentication with key agreement scheme to reduce the computation and communication loads on the mobile devices. The scheme is suitable for mobile client-server environments, is secure against different attacks and provides mutual authentication with session key agreement between a client and the remote server as they claimed. Unfotunately, this paper demonstrates that Debiao et al.’s scheme is vulnerable some cryptographic attacks, and proposed an improved ID-based client authentication with key agreement scheme using ECC. The proposed scheme is secure based on Elliptic Curve Discrete Logarithm Problem (ECDLP) and Computational Diffie-Helmann Problem (CDHP). The detail analysis shows that our scheme overcomes the drawbacks of Debiao et al.’s scheme and achieves more functionality for the client authentication with lesser computational cost than other schemes.
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Authors and Affiliations

Islam S.K. Hafizul
G.P. Biswas

Improved Framework for Blockchain Application Using Lattice Based Key Agreement Protocol

Zahraa Ch. Oleiwi Rasha Ail Dihin Ali H. Alwan
International Journal of Electronics and Telecommunications | 2023 | vol. 69 | No 1 | 5-10 | DOI: 10.24425/ijet.2022.143902
Keywords key agreement protocol lattice based protocol mutual authentication Diffie-Hellman protocol forward secrecy
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Abstract

One of the most recent challenges in communication system and network system is the privacy and security of information and communication session. Blockchain is one of technologies that use in sensing application in different important environments such as healthcare. In healthcare the patient privacy should be protected use high security system. Key agreement protocol based on lattice ensure the authentication and high protection against different types of attack especially impersonation and man in the middle attack where the latticebased protocol is quantum-withstand protocol. Proposed improved framework using lattice based key agreement protocol for application of block chain, with security analysis of many literatures that proposed different protocols has been presented with comparative study. The resultant new framework based on lattice overcome the latency limitation of block chain in the old framework and lowered the computation cost that depend on Elliptic curve Diffie-Hellman. Also, it ensures high privacy and protection of patient’s information.
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Authors and Affiliations

Zahraa Ch. Oleiwi
1
Rasha Ail Dihin
2
Ali H. Alwan
3
  1. College of Computer Science and InformationTechnology, University Al-Qadisiyah, Iraq
  2. Faculty of Education for Girls, University of Kufa, Najaf, Iraq
  3. Alkafeel University, Najaf, Iraq

RFID-MA XTEA: Cost-Effective RFID-Mutual Authentication Design Using XTEA Security on FPGA Platform

R. Anusha V. Veena Devi Shastrimath
International Journal of Electronics and Telecommunications | 2021 | vol. 67 | No 4 | 623-629 | DOI: 10.24425/ijet.2021.137855
Keywords RFID Mutual Authentication (MA) XTEA FPGA NFC EPC encryption Reader Tag CBC Mode
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Abstract

RFID systems are one of the essential technologies and used many diverse applications. The security and privacy are the primary concern in RFID systems which are overcome by using suitable authentication protocols. In this manuscript, the costeffective RFID-Mutual Authentication (MA) using a lightweight Extended Tiny encryption algorithm (XTEA) is designed to overcome the security and privacy issues on Hardware Platform. The proposed design provides two levels of security, which includes secured Tag identification and mutual authentication. The RFIDMA mainly has Reader and Tag along with the backend Server. It establishes the secured authentication between Tag and Reader using XTEA. The XTEA with Cipher block chaining (CBC) is incorporated in RFID for secured MA purposes. The authentication process completed based on the challenge and response between Reader and Tag using XTEA-CBC. The present work is designed using Verilog-HDL on the Xilinx environment and implemented on Artix-7 FPGA. The simulation and synthesis results discussed with hardware constraints like Area, power, and time. The present work is compared with existing similar approaches with hardware constraints improvements.
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Authors and Affiliations

R. Anusha
1
V. Veena Devi Shastrimath
1
  1. Department of Electronics and Communication Engineering, N.M.A.M Institute of Technology, Visvesvaraya Technological University, Belagavi, Karnataka, India

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