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Article type: Research Article
Authors: Kumar, M.a; * | Kavitha, A.b
Affiliations: [a] Department of Electronics and Communication Engineering, Er. perumal Manimekalai College of Engineering, Tamilnadu, India | [b] Department of Electronics and Communication Engineering, M. Kumarasamy College of Engineering, Tamilnadu, India
Correspondence: [*] Corresponding author. M. Kumar, Assistant Professor, Department of Electronics and Communication Engineering, Er. perumal Manimekalai College of Engineering, Tamilnadu, India. E-mail: kumar04.ece@gmail.com.
Note: [1] Deep-MAD: Deep Learning based Multiple Attack Detection for Secure Device- To-Device Communication in FOG Environment
Abstract: An exponential growth of users demands ubiquitous connectivity, which requires the integration of new technology. Therefore, Device to Device (D2D) communication has been considered a promising technology that utilizes effective and efficient communication. Even though numerous studies have been conducted for establishing secure D2D communication, however, existing techniques face challenges like privacy, security threats, and poor generality. To overcome these issues a novel Deep-MAD model is proposed to preserve data privacy along with its access control in the D2D network and multiple attack detection in a fog environment. A Fully Homomorphic Elliptic Curve Cryptography (FHECC) is introduced to transmit data securely in a D2D network. The data owner uses FHECC algorithm to encrypt the plain text into cipher text before storing it on the fog. Whenever the user requests data from the fog, the fog service provider confirm the user’s access control. Furthermore, the deep learning-based Bi-LSTM is used to differentiate the device as an authorized or unauthorized user. If the IP address is genuine then the inverse FHECC is used to decrypt the data for authorized users. Otherwise, the particular device is blocked and it is sent for further verification for classifying the types of attacks. The effectiveness of the proposed strategy is examined using several parameters, such as computational complexity, scalability, accuracy, and Execution time. The proposed technique improves the overall computational overhead of 31.77, 9.34, and 4.67 better than AKA protocol, lightweight cipher, and FHEEP respectively.
Keywords: Bi-LSTM, device-to-device communication, cryptography, security, fog environment
DOI: 10.3233/JIFS-235362
Journal: Journal of Intelligent & Fuzzy Systems, vol. 46, no. 1, pp. 955-966, 2024
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