Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/4181
Title: A taxonomy on smart healthcare technologies : security framework, case study, and future directions
Authors: Chaudhary, Sachi 
Kakkar, Riya 
Jadav, Nilesh Kumar 
Nair, Anuja 
Gupta, Rajesh
Tanwar, Sudeep
Agrawal, Smita 
Alshehri, Mohammad Dahman 
Sharma, Ravi
Sharma, Gulshan
Davidson, Innocent E.
Keywords: 0303 Macromolecular and Materials Chemistry;0306 Physical Chemistry (incl. Structural)
Issue Date: 5-Jul-2022
Publisher: Hindawi Limited
Source: Chaudhary, S. et al. 2022. A taxonomy on smart healthcare technologies: security framework, case study, and future directions. Journal of Sensors. 2022: 1-30. doi:10.1155/2022/1863838
Journal: Journal of Sensors; Vol. 2022 
Abstract: 
There is a massive transformation in the traditional healthcare system from the specialist-centric approach to the patient-centric approach by adopting modern and intelligent healthcare solutions to build a smart healthcare system. It permits patients to directly share their medical data with the specialist for remote diagnosis without any human intervention. Furthermore, the remote monitoring of patients utilizing wearable sensors, Internet of Things (IoT) technologies, and artificial intelligence (AI) has made the treatment readily accessible and affordable. However, the advancement also brings several security and privacy concerns that poorly maneuvered the effective performance of the smart healthcare system. An attacker can exploit the IoT infrastructure, perform an adversarial attack on AI models, and proliferate resource starvation attacks in smart healthcare system. To overcome the aforementioned issues, in this survey, we extensively reviewed and created a comprehensive taxonomy of various smart healthcare technologies such as wearable devices, digital healthcare, and body area networks (BANs), along with their security aspects and solutions for the smart healthcare system. Moreover, we propose an AI-based architecture with the 6G network interface to secure the data exchange between patients and medical practitioners. We have examined our proposed architecture with the case study based on the COVID-19 pandemic by adopting unmanned aerial vehicles (UAVs) for data exchange. The performance of the proposed architecture is evaluated using various machine learning (ML) classification algorithms such as random forest (RF), naive Bayes (NB), logistic regression (LR), linear discriminant analysis (LDA), and perceptron. The RF classification algorithm outperforms the conventional algorithms in terms of accuracy, i.e., 98%. Finally, we present open issues and research challenges associated with smart healthcare technologies
URI: https://hdl.handle.net/10321/4181
ISSN: 1687-725X
1687-7268 (Online)
DOI: 10.1155/2022/1863838
Appears in Collections:Research Publications (Engineering and Built Environment)

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