Sohail Jabbar scite author profile

Interoperability remains a significant burden to the developers of Internet of Things’ Systems. This is due to the fact that the IoT devices are highly heterogeneous in terms of underlying communication protocols, data formats, and technologies. Secondly due to lack of worldwide acceptable standards, interoperability tools remain limited. In this paper, we proposed an IoT based Semantic Interoperability Model (IoT-SIM) to provide Semantic Interoperability among heterogeneous IoT devices in healthcare domain. Physicians communicate their patients with heterogeneous IoT devices to monitor their current health status. Information between physician and patient is semantically annotated and communicated in a meaningful way. A lightweight model for semantic annotation of data using heterogeneous devices in IoT is proposed to provide annotations for data. Resource Description Framework (RDF) is a semantic web framework that is used to relate things using triples to make it semantically meaningful. RDF annotated patients’ data has made it semantically interoperable. SPARQL query is used to extract records from RDF graph. For simulation of system, we used Tableau, Gruff-6.2.0, and Mysql tools.

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Security threats to critical infrastructure: the human factor

Ghafir

et al. 2018

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In the twenty-first century, globalisation made corporate boundaries invisible and difficult to manage. This new macroeconomic transformation caused by globalisation introduced new challenges for critical infrastructure management. By Security threats to critical infrastructure: the human… 4987 replacing manual tasks with automated decision making and sophisticated technology, no doubt we feel much more secure than half a century ago. As the technological advancement takes root, so does the maturity of security threats. It is common that today's critical infrastructures are operated by non-computer experts, e.g. nurses in health care, soldiers in military or firefighters in emergency services. In such challenging applications, protecting against insider attacks is often neither feasible nor economically possible, but these threats can be managed using suitable risk management strategies. Security technologies, e.g. firewalls, help protect data assets and computer systems against unauthorised entry. However, one area which is often largely ignored is the human factor of system security. Through social engineering techniques, malicious attackers are able to breach organisational security via people interactions. This paper presents a security awareness training framework, which can be used to train operators of critical infrastructure, on various social engineering security threats such as spear phishing, baiting, pretexting, among others.Keywords Critical infrastructure security · Security awareness · Cyber security training · Work-based security training · Security threats against critical infrastructure

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Malware detection in industrial internet of things based on hybrid image visualization and deep learning model

et al. 2020

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Semantic interoperability for big-data in heterogeneous IoT infrastructure for healthcare

Ullah

Habib

Farhan

et al. 2017

Sustainable Cities and Society

136

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Smartbuddy: defining human behaviors using big data analytics in social internet of things

Paul

Ahmad

Rathore

et al. 2016

IEEE Wireless Commun.

217

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Sohail Jabbar

Semantic Interoperability in Heterogeneous IoT Infrastructure for Healthcare

Security threats to critical infrastructure: the human factor

Malware detection in industrial internet of things based on hybrid image visualization and deep learning model

Semantic interoperability for big-data in heterogeneous IoT infrastructure for healthcare

Smartbuddy: defining human behaviors using big data analytics in social internet of things

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