Abstract
Cloud data storage is revolutionary because it eliminates the need for additional hardware, which is often costly, inconvenient, and requires additional space. Cloud data storage allows data owners to store large amounts of data in a flexible way and at low cost. The number of online cloud storage services and their consumers has therefore increased dramatically. However, ensuring the privacy and security of data on a digital platform is often a challenge. A cryptographic task-role-based access control (T-RBAC) approach can be used to protect data privacy. This approach ensures the accessibility of data for authorized consumers and keeps it safe from unauthorized consumers. However, this type of cryptographic approach does not address the issue of trust. In this paper, we propose a comprehensive trust model integrated with a cryptographic T-RBAC to enhance the privacy and security of data stored in cloud storage systems, and suggests that trust models involve inheritance and hierarchy in the roles and tasks of trustworthiness evaluation, where this study aims to identify the most feasible solution for the trust issue in T-RBAC approaches. Risk evaluations regarding other possible flaws of the design are also performed. The proposed design can decrease risk by providing high security for cloud storage systems and improve the quality of decisions of cloud operators and data owners.
Highlights
We propose a comprehensive trust model integrated with a cryptographic task-role-based access control (T-role-based access control (RBAC)) to enhance the privacy and security of data stored in cloud storage systems, and suggest that trust models involve inheritance and hierarchy in the roles and tasks of trustworthiness evaluation, where this study aims to identify the most feasible solution for the trust issue in T-RBAC approaches
We introduce the T-RBAC as a new access control model integrated with a comprehensive trust model by applying different criteria to provide high security for cloud storage systems while taking flexibility into consideration
We proposed a design that can decrease risk by providing high security for cloud storage systems by introducing the T-RBAC as a new model of access control integrated with a comprehensive trust model, which improves the quality of the decisions made by the cloud operators and the data owners
Summary
Cloud computing is a diverse utility that involves clients who are both insiders and outsiders, as well as servers for storage, internet systems, and cloud providers [4]. This computing platform has gained dominance in the business sector as a result of its minimal operational and maintenance costs. Privacy and security have always been a challenge for digitally available data as most of the data is offered in the public domain To curb this situation, we need to use a cryptographic approach, T-RBAC, to provide protection for the privacy of data available on digital platforms of cloud computing. The proposed design can decrease risk by providing high security for cloud storage systems and improve the quality of the decisions of cloud operators and data owners
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