ANWAR NOUR EDDINE Bahache
أنور نور الدين بحاش
anwarnoureddine.bahache@univ-msila.dz
0669773367
- Informatics Department
- Faculty of Mathematics and Informatics
- Grade PHd
About Me
Mathématiques et Informatique
Filiere
Informatique
Location
Msila, Msila
Msila, ALGERIA
Code RFIDE- 1994-04-05 00:00:00
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ANWAR NOUR EDDINE Bahache birthday
- 2025-01-28
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2025-01-28
An Efficient ECC-Based Authentication Protocol for Secure RFID Healthcare Applications
As Internet and Communication Technologies (ICT) evolve, RFID (Radio Frequency Identification) has become essen- tial in healthcare for efficiently tracking and managing tagged medical devices. While RFID tags are extensively used on various healthcare assets, they are exposed to serious security and privacy risks, such as eavesdropping, data tampering, and interception, which threaten the confidentiality of healthcare professionals and patients. Despite the development of multiple lightweight RFID authentication schemes, many still suffer from vulnerabilities like replay, impersonation, and de-synchronization attacks. To address these limitations, we present a robust and efficient RFID authentication scheme designed specifically for IoT-enabled healthcare applications. By integrating Elliptic Curve Cryptog- raphy (ECC), our scheme delivers strong security with a low computational footprint, ensuring resilience against all evaluated attack types. Comprehensive security and performance testing demonstrate that our protocol offers an effective balance of security and efficiency, making it an ideal and secure choice for real-time healthcare environments.
Citation
Mohamed Bahache , Anwar Nour Eddine Bahache , NOUREDDINE Chikouche , FARES Mezrag , ,(2025-01-28), An Efficient ECC-Based Authentication Protocol for Secure RFID Healthcare Applications,THE INTERNATIONAL SYMPOSIUM ON INNOVATIVE INFORMATICS OF BISKRA,universite de Biskra
- 2024-07-01
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2024-07-01
Securing Cloud-based Healthcare Applications with a Quantum-resistant Authentication and Key Agreement Framework
A biosensor is a method for transmitting various physical phenomena, such as body temperature, electrocardiogram (ECG), pulse, blood pressure, electroencephalogram (EEG), and respiratory rate. This transmission occurs through the utilization of a Wireless Body Area Network (WBAN) when remotely diagnosing patients via Internet-of-Medical-Things (IoMT). However, the transmission of sensitive data from IoMT through WBAN via an insecure channel exposes it to various threats, necessitating the implementation of robust measures to guarantee security against potential adversaries. To address the security concerns associated with patient monitoring in healthcare systems and achieve the necessary security and privacy requirements during communication, a robust authentication framework is indispensable. Hence, it introduces an agile and robust post-quantum authentication framework for cloud-based healthcare applications, effectively mitigating the vulnerabilities identified in the recent literature. This framework is designed to protect against quantum attacks using the Kyber. A formal security verification of the proposed protocol is presented using AVISPA, as well as informally. Additionally, a comparison with the previous works is made regarding both performance and security. The comparison results conclusively show that our proposed framework is better regarding both measures.
Citation
NOUREDDINE Chikouche , Anwar Nour Eddine Bahache , Sedat Akleylek, , (2024-07-01), Securing Cloud-based Healthcare Applications with a Quantum-resistant Authentication and Key Agreement Framework, Internet of Things, Vol:26, Issue:0, pages:101200, Elseivier