Daehan Kwak scite author profile

The Internet of Things (IoT) makes smart objects the ultimate building blocks in the development of cyber-physical smart pervasive frameworks. The IoT has a variety of application domains, including health care. The IoT revolution is redesigning modern health care with promising technological, economic, and social prospects. This paper surveys advances in IoT-based health care technologies and reviews the state-of-the-art network architectures/platforms, applications, and industrial trends in IoT-based health care solutions. In addition, this paper analyzes distinct IoT security and privacy features, including security requirements, threat models, and attack taxonomies from the health care perspective. Further, this paper proposes an intelligent collaborative security model to minimize security risk; discusses how different innovations such as big data, ambient intelligence, and wearables can be leveraged in a health care context; addresses various IoT and eHealth policies and regulations across the world to determine how they can facilitate economies and societies in terms of sustainable development; and provides some avenues for future research on IoT-based health care based on a set of open issues and challenges.

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A smart healthcare monitoring system for heart disease prediction based on ensemble deep learning and feature fusion

Ali

et al. 2020

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Type-2 fuzzy ontology–aided recommendation systems for IoT–based healthcare

Ali

Islam

Kwak

et al. 2018

Computer Communications

166

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Transportation sentiment analysis using word embedding and ontology-based topic modeling

Ali

Kwak

Khan

et al. 2019

Knowledge-Based Systems

150

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Fuzzy ontology-based sentiment analysis of transportation and city feature reviews for safe traveling

Ali

Kwak

Khan

et al. 2017

Transportation Research Part C: Emerging Technologies

117

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Traffic congestion is rapidly increasing in urban areas, particularly in mega cities. To date, there exist a few sensor network based systems to address this problem. However, these techniques are not suitable enough in terms of monitoring an entire transportation system and delivering emergency services when needed. These techniques require real-time data and intelligent ways to quickly determine traffic activity from useful information. In addition, these existing systems and websites on city transportation and travel rely on rating scores for different factors (e.g., safety, low crime rate, cleanliness, etc.). These rating scores are not efficient enough to deliver precise information, whereas reviews or tweets are significant, because they help travelers and transportation administrators to know about each aspect of the city. However, it is difficult for travelers to read, and for transportation systems to process, all reviews and tweets to obtain expressive sentiments regarding the needs of the city. The optimum solution for this kind of problem is analyzing the information available on social network platforms and performing sentiment analysis. On the other hand, crisp ontology-based frameworks cannot extract blurred information from tweets and reviews; therefore, they produce inadequate results. In this regard, this paper proposes fuzzy ontology-based sentiment analysis and semantic web rule language (SWRL) rule-based decision-making to monitor transportation activities (accidents, vehicles, street conditions, traffic volume, etc.) and to make a city-feature polarity map for travelers. This system retrieves reviews and tweets related to city features and transportation activities. The feature opinions are extracted from these retrieved data, and then fuzzy ontology is used to determine the transportation and city-feature polarity. A fuzzy ontology and an intelligent system prototype are developed by using Protégé web ontology language (OWL) and Java, respectively. The experimental results show satisfactory improvement in tweet and review analysis and opinion mining.

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Daehan Kwak

The Internet of Things for Health Care: A Comprehensive Survey

A smart healthcare monitoring system for heart disease prediction based on ensemble deep learning and feature fusion

Type-2 fuzzy ontology–aided recommendation systems for IoT–based healthcare

Transportation sentiment analysis using word embedding and ontology-based topic modeling

Fuzzy ontology-based sentiment analysis of transportation and city feature reviews for safe traveling

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