Maryam Shabbir scite author profile

Centralized Personal Health Records (PHR) are mutable with compromised security as it may lead to a single point of failure. Confidentiality, protection and security are the common issues in clinical record frameworks. Specific security and protection schemes are being used to secure clinical records. Accordingly, using the Interplanetary File System (IPFS), a decentralized PHR can be maintained to allow patients to access their records without delay. Moreover, a Kademlia-based distributed hash table provides fault tolerance and enables patients to keep track of their medical history. However, a significant issue in IPFS is data availability. It is only available on the web until users or hosts of the network request each peer, later it leads to a permanent loss of data. We propose an architecture that aims to provide faster retrieval and constant PHR availability using Blockchain and IPFS. The results show that an optimal node is selected in each iteration amongst all the available adjacent nodes.

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Enhancing Security of Health Information Using Modular Encryption Standard in Mobile Cloud Computing

Shabbir

Iwendi

et al. 2021

IEEE Access

113

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Secure Cloud Storage for Medical IoT Data using Adaptive Neuro-Fuzzy Inference System

Mohiyuddin

Javed

Chakraborty

et al. 2021

Int. J. Fuzzy Syst.

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Exploratory data analysis, classification, comparative analysis, case severity detection, and internet of things in COVID-19 telemonitoring for smart hospitals

Shabbir

Javed

et al. 2022

Journal of Experimental & Theoretical Artificial Intelligen

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Ensuring the Confidentiality of Nuclear Information at Cloud Using Modular Encryption Standard

Shabbir

Rizwan

et al. 2019

Security and Communication Networks

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Lifeblood of every organization is its confidential information. The accentuation on cybersecurity has expanded considerably in the course of the last few years because of the expanded number in attacks at the individual and organization and even at the state level. One specific zone of consideration is the assurance of the security of nuclear information. This may relate to both Instrumentation and Control (I&C) and Information Technology (IT). The present security measures are insufficient for nuclear information because of their lack of identification, classification, and securing measures (because of their multifaceted nature). With the increasing trends of data storage and management with the assistance of cloud, data confidentiality threats are immensely increasing. As there is no such safeguard that can make our systems a hundred percent secure, the best approach is to provide security at distinct layers. The basic purpose of layered security is to have the benefit that if one layer fails or compromised, the other layer compensates or maintains that confidentiality with the access control in the owner’s hand. In this paper, we have proposed a multilevel approach with protection-based computing by using Modular Encryption Standard (MES). We proposed a cloud framework as well to further enhance its security by utilizing a multicloud and modular approach. By performing simulations, the obtained results depicted that our proposed scheme works efficiently than other commonly used schemes.

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Maryam Shabbir

Storage and Proximity Management for Centralized Personal Health Records Using an IPFS-Based Optimization Algorithm

Enhancing Security of Health Information Using Modular Encryption Standard in Mobile Cloud Computing

Secure Cloud Storage for Medical IoT Data using Adaptive Neuro-Fuzzy Inference System

Exploratory data analysis, classification, comparative analysis, case severity detection, and internet of things in COVID-19 telemonitoring for smart hospitals

Ensuring the Confidentiality of Nuclear Information at Cloud Using Modular Encryption Standard

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