A fuzzy optimal lightweight convolutional neural network for deduplication detection in cloud server

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Periasamy J. K.; Selvam L.; Anuradha M.; Kennady R.

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Journal Paper

Paper Information

Journal: Iranian Journal of Fuzzy Systems Year:2024 | Volume:21 | Issue:1 Page(s): 33-49

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Information Journal Paper

Title

A fuzzy optimal lightweight convolutional neural network for deduplication detection in cloud server

Author(s)

Periasamy J. K. | Selvam L. | Anuradha M. | Kennady R. | Issue Writer Certificate

Keywords

Security

Encryption

Key generation

Lightweight convolutional neural network

fuzzy logic system

Tuna swarm optimization algorithm

Abstract

Nowadays the cloud computing environment is widely utilized for transmitting and receiving data securely. Inorder to secure the data the Encryption method is used but still due to some limitations the Security process is diminished. Therefore, this paper proposes a new algorithm to provide better Security while transmitting data through the network. At first, the sensitivity of data is determined using a Lightweight convolutional neural network (LWCNN) model which is used to categorize the unclassified data into two categories normal sensitive data and highly sensitive data. After determining the level of data sensitivity, the Encryption process is performed further. The efficient hash function-based duplication detection approach is employed to maintain confidential information before outsourcing it to a cloud server. Subsequently, the ideal keys are generated for each data based on its sensitivity level using the proposed fuzzy tuna swarm (FTS) algorithm. Finally, the data is encrypted by converting plain text into ciphertext which is only visible to authorized users. The experimental results show that the LWCNN model utilized for data sensitivity classification achieved 94% accuracy and the FTS algorithm proposed for optimal Key generation took much less communication time of about 1800μs than other compared techniques.

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