E-Health Cloud Security Using Timing Enabled Proxy Re-Encryption

Background: Currently, Cloud Service Provider (CSP) or third party usually proposes principles and methods for cloud security risk evaluation, while cloud users have no choice but accept them. However, since cloud users and cloud service providers have conflicts of interests, cloud users may not trust the results of security evaluation performed by the CSP. Also, different cloud users may have different security risk preferences, which makes it difficult for third party to consider all users' needs during evaluation. In addition, current security evaluation indexes for cloud are too impractical to test (e.g., indexes like interoperability, transparency, portability are not easy to be evaluated). Methods: To solve the above problems, this paper proposes a practical cloud security risk evaluation method of decision-making based on conflicting roles by using the Analytic Hierarchy Process (AHP) with Aggregation of Individual priorities (AIP). Results: Not only can our method bring forward a new index system based on risk source for cloud security and corresponding practical testing methods, but also can obtain the evaluation result with the risk preferences of conflicting roles, namely CSP and cloud users, which can lay a foundation for improving mutual trusts between the CSP and cloud users. The experiments show that the method can effectively assess the security risk of cloud platforms and in the case where the number of clouds increased by 100% and 200%, the evaluation time using our methodology increased by only by 12% and 30%. Conclusion: Our method can achieve consistent decision based on conflicting roles, high scalability and practicability for cloud security risk evaluation.

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An Enhanced Cloud Security using Quantum Teleportation

International Journal of Distributed and Cloud Computing ◽

10.21863/ijdcc/2015.3.1.001 ◽

2015 ◽

Vol 3 (1) ◽

Author(s):

D. Sowmya ◽

S. Sivasankaran

Keyword(s):

Quantum Key Distribution ◽

Quantum Teleportation ◽

Quantum Physics ◽

Communication Channel ◽

Data Transfer ◽

Cloud Security ◽

The Other ◽

Cloud Environment ◽

Quantum Bits ◽

Quantum Parallelism

In the cloud environment, it is difficult to provide security to the monolithic collection of data as it is easily accessed by breaking the algorithms which are based on mathematical computations and on the other hand, it takes much time for uploading and downloading the data. This paper proposes the concept of implementing quantum teleportation i.e., telecommunication + transportation in the cloud environment for the enhancement of cloud security and also to improve speed of data transfer through the quantum repeaters. This technological idea is extracted from the law of quantum physics where the particles say photons can be entangled and encoded to be teleported over large distances. As the transfer of photons called qubits allowed to travel through the optical fiber, it must be polarized and encoded with QKD (Quantum Key Distribution) for the security purpose. Then, for the enhancement of the data transfer speed, qubits are used in which the state of quantum bits can be encoded as 0 and 1 concurrently using the Shors algorithm. Then, the Quantum parallelism will help qubits to travel as fast as possible to reach the destination at a single communication channel which cannot be eavesdropped at any point because, it prevents from creating copies of transmitted quantum key due to the implementation of no-cloning theorem so that the communication parties can only receive the intended data other than the intruders.

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Cloud Security Implementation using Homomorphic Encryption

2020 IEEE International Conference on Communication, Networks and Satellite (Comnetsat) ◽

10.1109/comnetsat50391.2020.9328979 ◽

2020 ◽

Author(s):

Infall Syafalni ◽

Hamdani Fadhli ◽

Wuri Utami ◽

Gede Satya Adi Dharma ◽

Rahmat Mulyawan ◽

...

Keyword(s):

Homomorphic Encryption ◽

Cloud Security

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Evaluating the E-Health Cloud Computing Systems Adoption in Taiwan’s Healthcare Industry

Life ◽

10.3390/life11040310 ◽

2021 ◽

Vol 11 (4) ◽

pp. 310

Author(s):

Shih-Chia Chang ◽

Ming-Tsang Lu ◽

Tzu-Hui Pan ◽

Chiao-Shan Chen

Keyword(s):

Decision Making ◽

Cloud Computing ◽

Multiple Criteria Decision Making ◽

Cloud Service ◽

Computing System ◽

Healthcare Industry ◽

Computing Systems ◽

Factors Affecting ◽

Cloud Computing System ◽

Health Cloud

Although the electronic health (e-health) cloud computing system is a promising innovation, its adoption in the healthcare industry has been slow. This study investigated the adoption of e-health cloud computing systems in the healthcare industry and considered security functions, management, cloud service delivery, and cloud software for e-health cloud computing systems. Although numerous studies have determined factors affecting e-health cloud computing systems, few comprehensive reviews of factors and their relations have been conducted. Therefore, this study investigated the relations between the factors affecting e-health cloud computing systems by using a multiple criteria decision-making technique, in which decision-making trial and evaluation laboratory (DEMATEL), DANP (DEMATEL-based Analytic Network Process), and modified VIKOR (VlseKriterijumska Optimizacija I Kompromisno Resenje) approaches were combined. The intended level of adoption of an e-health cloud computing system could be determined by using the proposed approach. The results of a case study performed on the Taiwanese healthcare industry indicated that the cloud management function must be primarily enhanced and that cost effectiveness is the most significant factor in the adoption of e-health cloud computing. This result is valuable for allocating resources to decrease performance gaps in the Taiwanese healthcare industry.

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