Abstract
Today, the trend of the Internet of Things (IoT) is increasing through the use of smart devices, vehicular networks, and household devices with internet-based networks. Specifically, the IoT smart devices and gadgets used in government and military are crucial to operational success. Communication and data sharing between these devices have increased in several ways. Similarly, the threats of information breaches between communication channels have also surged significantly, making data security a challenging task. In this context, access control is an approach that can secure data by restricting unauthorized users. Various access control models exist that can effectively implement access control yet, and there is no single state-of-the-art model that can provide dynamicity, security, ease of administration, and rapid execution all at once. In combating this loophole, we propose a novel secure and dynamic access control (SDAC) model for the IoT networks (smart traffic control and roadside parking management). Our proposed model allows IoT devices to communicate and share information through a secure means by using wired and wireless networks (Cellular Networks or Wi-Fi). The effectiveness and efficiency of the proposed model are demonstrated using mathematical models and discussed with many example implementations.
Highlights
Internet of things (IoT) is increasingly gaining more attention due to the increase in the use of IP-based home appliances, including medical and mobile devices
This paper purposes a novel approach by joining role-based access control (RBAC) and attribute-based access control (ABAC) and relishing the paybacks of two models besides covering their scarcities
The permissions to roles assignment and roles to user assignment are dynamic by utilizing the concept of attributes
Summary
Internet of things (IoT) is increasingly gaining more attention due to the increase in the use of IP-based home appliances, including medical and mobile devices. The contributions of this paper are as follows: This work presents the design and framework of a secure and dynamic access control model for the IoT-based TSS that provides tight security due to objects and actions attributes. In this way, the permissions can restrict the users more strictly. There is a different approach for the union of RBAC and ABAC that resolves the drawbacks of two concepts and offers a further vigorous, active, significantly better role structuring as well as the scrutiny of permission for the administrator (Kuhn, Coyne & Weil, 2010) Another fine-grained access control model has been recently introduced by merging RBAC and ABAC entities so that flexibility, fine granularity, and efficiency can be achieved (Qi, Di & Li, 2018). OB (OB_CT1:OB_CONT) → {OB ⊆ NET_OBJS}, it denotes the mapping of objects onto the object-containers OB_CT1
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