Unified GPU Technique to Boost Confidentiality, Integrity and Trim Data Loss in Big Data Transmission

Bhattacharjee, Shiladitya; Rahim, Lukman Ab.; Watada, Junzo; Roy, Arunava

doi:10.1109/access.2020.2978297

Cited by 15 publications

(7 citation statements)

References 57 publications

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“…Data security is a technique related to protecting data from intentional or unintentional manipulation, destruction, disclosure, and loss of data [30]. The data security concept is mainly built upon three basics which are confidentiality, integrity, and availability (CIA).…”

Section: Data Securitymentioning

confidence: 99%

Robust and Sophisticated Combined-Layered Security: Secured 6G Mobile Network Considerations

Sr,

El-Bendary,

Eltokhy

et al. 2024

Preprint

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Deep learning, machine learning and artificial intelligence have been proposed for enhancing the multimedia processing and security as well as the advanced security tools for 6G networks. The vision of 6G networks refers to linking undersea, terrestrial, and space networks together. This vision involves transferring a massive amount of data over the network. The data hiding based on the deep learning is considered compared to the traditional steganography tools in 6G network, it requires robust and flexible/combined multi- levels of security. This paper presents the proposed vision of 6G security. This paper focuses on security levels on 6G network. The paper proposes a multi-level security system that secures the data without affecting it. The multi-level security system consists of three security levels, which are two encryption techniques and a data hiding technique. The paper carried out several simulation experiments using multi dataset (Mathwork, Yolov8 and others) to evaluate the proposed scenarios and find integration of these techniques that provides the best security performance without affecting the data. The best simulation experiments that provided the best data security performance were the integration between 2D Logistic map, SVD, and Baker Map, respectively. The proposed steganography performs better than the recent published related works and compared with the deep learning based steganography. The proposed combined system provided the better simulation results for image security. The simulation results indicated a perfect match between the original message and the decryption original message after applying the system. The results also indicated that there was no effect on the data and no loss of data.

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Section: Data Securitymentioning

confidence: 99%

Robust and Sophisticated Combined-Layered Security: Secured 6G Mobile Network Considerations

Sr,

El-Bendary,

Eltokhy

et al. 2024

Preprint

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“…Retaining data privacy and integrity in any VM migration are crucial aspects similar to other data transmission schemes. Even a tiny block of data related to CPU states or memory page losses can cause the entire migration process to fail [7]. Consequently, the migrated VM is often not restorable at the destination host.…”

Section: Fig 2 Memory Management Issues In Vm Migrationmentioning

confidence: 99%

“…Generally, data integrity sufferers due to data loss. The data loss, however, frequently happens during large VM migration due to channel congestion [51], multiple limitations of transportation channels, and interference of unwanted third parties [7,12]. The large size of the input VM makes these problems more difficult.…”

Section: Capacity To Offer Data Integritymentioning

confidence: 99%

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An Integrated Technique for Securing Large Virtual Machine Migration

Bhattacharjee,

Choudhury,

Abdelmoniem

et al. 2024

Preprint

Self Cite

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Maintaining data confidentiality and integrity during the large VM migration is quite challenging. Simultaneously, the use of complex encryption or steganography for managing them increases data and time overheads. These may cause data loss. The transportation of large VMs further consumes significant bandwidth and causes page faults. However, these issues aren't dealt with in modern literature, despite many research attempts. Moreover, unlawful intrusions and various transmission errors make these matters worse. Hence, this research work proposes an efficient technique that addresses such outstanding issues in a unified way. The suggested solution has a special data compression method that reduces big VM sizes to 53.9%, a new steganography method to enhance data confidentiality and integrity, and a smart split migration method to stop page faults as well as lower data loss to 0.0009%. The results further show that it cuts down on downtime by 10% more than the existing VM migration methods. The obtained results justify its efficiencies over other existing ones in distinct dimensions.

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“…Data security is a techniquerelated to protecting data from intentional or unintentional manipulation, destruction, disclosure, and loss of data [30].The data security concept is mainly built upon three basics which are confidentiality, integrity, and availability (CIA). Confidentiality aims to assure data privacy, whichmeans that only the authorized user can read the data.…”

Section: Data Securitymentioning

confidence: 99%

Flexible Multi-Layered Security System: Secure 6G Mobile Network Considerations

Sr,

El-Bendary,

Eltokhy

et al. 2023

Preprint

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The vision of 6G networks refers to linking undersea, terrestrial, and space networks together. This vision involves transferring a massive amount of data over the network. 6G network requires very high levels of security. This paper presents the proposed vision of 6G security. This paper focuses on security levels on 6G network. The paper proposes a multi-level security system that secures the data without affecting it. The multi-level security system consists of three security levels, which are two encryption techniques and a data hiding technique. The paper carried outmany simulation experiments to find the best integration of these techniques that provides the best security performance without affecting the data. The best simulation experiments that provided the best data security performance were the integration between 2D Logistic map, SVD, and Baker Map, respectively. This system provided the best simulation results for data security. The simulation results indicated a perfect match between the original message and the decryption original message after applying the system. The results also indicated that there was no effect on the data and no loss of data.

show abstract

Unified GPU Technique to Boost Confidentiality, Integrity and Trim Data Loss in Big Data Transmission

Cited by 15 publications

References 57 publications

Robust and Sophisticated Combined-Layered Security: Secured 6G Mobile Network Considerations

Robust and Sophisticated Combined-Layered Security: Secured 6G Mobile Network Considerations

An Integrated Technique for Securing Large Virtual Machine Migration

Flexible Multi-Layered Security System: Secure 6G Mobile Network Considerations

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