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realized with the help of larger databases in space and time. This is one of the purposes of the connection of Precision Agriculture (PA) and IoT (Internet of Things) technologies. IoT and smart agriculture The IERC (IoT European Research Cluster
In this paper, a unique healthcare solution is described that supports the even more effective operation of the hospital information systems. The main question is whether the emerging opportunities of the Internet of things devices can also be exploited in the industrial hospital information system landscape. This demonstrated research describes the most feasible way to integrate the Internet of things capability into hospital information production systems. The initial goal was the design and implementation of a single, unified telemedicine hub offering community-based solution for integrated medical systems. This solution allows the intercepted information to be collected and interpreted at community level. The designed and implemented system acts as a transmitter between the physician and patient. The software solution operates with sensor-based information collected from the individual. Emerging Internet of things devices and solutions open new horizons for today’s health care systems. The presented and detailed system provides the ability to real-time health-monitoring and in-depth health analyzing through open application programming interfaces. The telemedicine hub system makes it easier to integrate the Internet of things capability into the operating health care systems.
The international healthcare systems interoperability is an unresolved technological area at the moment. This paper demonstrates the results of the software engineering research for simplex syntactic and semantic technical interoperability of hospital information systems, eHealth smart device technology and clinical telemedicine instruments through the recently developed Telemedicine Interoperability Hub. Several similar experiments exist. This research is unique in building a prototype interconnecting not only healthcare information systems with each other, but aiming to establish a general healthcare interoperability scheme including also the eHealth smart devices and telemedicine instruments. The aim of this research is to establish cloud-based data interchange capability with the newly developed information technology system interconnected with the emerging eHealth Internet of Things solutions and the classical hospital information system architecture. Notwithstanding the international information technology medical data exchange standards, like Health Level Seven, the adoption of an industry-wide open telemedicine syntactic and semantic interoperability standard is necessary. The research studied varying simplex, duplex, full-duplex, data package- and file-based information technology modalities establishing stable system interconnection among clinical instruments, healthcare systems and eHealth smart devices. This research is the manifestation of the trilateral cooperation of the University of Debrecen Department of Information Technology, Semmelweis University Second Paediatric Clinic and T-Systems Healthcare Competence Center Central and Eastern Europe. The developed experimental software engineering solution was embedded in hybrid cloud architecture after testing private cloud Infrastructure-as-a-Service and Public Cloud Software-as-a-Service technical solutions.
Addressing taxonomic challenges for Internet Use Disorders in light of changing technologies and diagnostic classifications. •
Commentary on: “How to overcome taxonomical problems in the study of Internet use disorders and what to do with “smartphone addiction”?” (Montag et al., 2020)
. However, new technological developments like virtual reality, augmented reality, internet of things (everyday objects that are connected with the Internet and are able to send and receive data) as well as artificial intelligence are independent from the
1 Introduction The exponential growth of using the Internet of Things (IoT) is becoming an increasingly challenging problem. IoT includes a group of devices connected to the Internet, which are usually defined by their low complexity, long
including the popular Fast Healthcare Interoperability Resources (FHIR) [ 1 ], the availability of patient information via smartphones, simple applications and Internet of Things (IoT) devices, and furthermore, the new opportunities provided by the various
strict compliance principle lead to numerous options and conflicts. However, due to the development of Fintech, modern technologies such as blockchain, smart contracts, and the Internet of Things (hereinafter referred to as ‘IOT’) are expected to partly
Kiberbiztonság a járműiparban
Automotive Cybersecurity
R. Yang L. Wireless Toward the Era of Intelligent Vehicles IEEE Internet of Things Journal
Blokklánc alkalmazási lehetőségek a biztonság területén és bevezetés-tervezésük
Blockchain applications in the field of security and their implementation planning
A blockchain future for internet of things security: a position paper Digital Communications and Networks 4 3 2018 08 149
References 1 Schwab K. The Fourth Industrial Revolution. Crown Publishing Group, New York, NY, 2017. 2 Greengard S. The internet of things. MIT
