IOT Service Utilisation in Healthcare

Utilising the new trend technologies in healthcare sector could offer alternative ways in managing the patients’ health records and also improve the healthcare quality. As such, this chapter provides an overview of utilising the Internet of Things (IoT) technology in healthcare sector as an emerging research and practical trend nowadays. The main benefits and advantages have been discussed in this chapter. On the other hand, it has been found that most of the hospitals in different countries are still facing many issues regarding their health information exchange. Recently, various studies in the area of healthcare information system mentioned that the fragmentations of the health information are one of the most important challenges with the distribution of patient information records. Therefore, in this chapter, we gave an in detail overview regarding the current issues facing the health sector in line with the IoT technologies. Additionally, a full description of advantages and disadvantages has been highlighted for using IoT in healthcare that can be considered as solutions for the mentioned issues

Human factors in developing automated vehicles: A requirements engineering perspective

Automated Vehicle (AV) technology has evolved significantly both in complexity and impact and is expected to ultimately change urban transportation. Due to this evolution, the development of AVs challenges the current state of automotive engineering practice, as automotive companies increasingly include agile ways of working in their plan-driven systems engineering—or even transition completely to scaled-agile approaches. However, it is unclear how knowledge about human factors (HF) and technological knowledge related to the development of AVs can be brought together in a way that effectively supports today\u27s rapid release cycles and agile development approaches. Based on semi-structured interviews with ten experts from industry and two experts from academia, this qualitative, exploratory case study investigates the relationship between HF and AV development. The study reveals relevant properties of agile system development and HF, as well as the implications of these properties for integrating agile work, HF, and requirements engineering. According to the findings, which were evaluated in a workshop with experts from academia and industry, a culture that values HF knowledge in engineering is key. These results promise to improve the integration of HF knowledge into agile development as well as to facilitate HF research impact and time to market

Towards fostering the role of 5G networks in the field of digital health

A typical healthcare system needs further participation with patient monitoring, vital signs sensors and other medical devices. Healthcare moved from a traditional central hospital to scattered patients. Healthcare systems receive help from emerging technology innovations such as fifth generation (5G) communication infrastructure: internet of things (IoT), machine learning (ML), and artificial intelligence (AI). Healthcare providers benefit from IoT capabilities to comfort patients by using smart appliances that improve the healthcare level they receive. These IoT smart healthcare gadgets produce massive data volume. It is crucial to use very high-speed communication networks such as 5G wireless technology with the increased communication bandwidth, data transmission efficiency and reduced communication delay and latency, thus leading to strengthen the precise requirements of healthcare big data utilities. The adaptation of 5G in smart healthcare networks allows increasing number of IoT devices that supplies an augmentation in network performance. This paper reviewed distinctive aspects of internet of medical things (IoMT) and 5G architectures with their future and present sides, which can lead to improve healthcare of patients in the near future

Digital Twins and the Future of their Use Enabling Shift Left and Shift Right Cybersecurity Operations

Digital Twins (DTs), optimize operations and monitor performance in Smart Critical Systems (SCS) domains like smart grids and manufacturing. DT-based cybersecurity solutions are in their infancy, lacking a unified strategy to overcome challenges spanning next three to five decades. These challenges include reliable data accessibility from Cyber-Physical Systems (CPS), operating in unpredictable environments. Reliable data sources are pivotal for intelligent cybersecurity operations aided with underlying modeling capabilities across the SCS lifecycle, necessitating a DT. To address these challenges, we propose Security Digital Twins (SDTs) collecting realtime data from CPS, requiring the Shift Left and Shift Right (SLSR) design paradigm for SDT to implement both design time and runtime cybersecurity operations. Incorporating virtual CPS components (VC) in Cloud/Edge, data fusion to SDT models is enabled with high reliability, providing threat insights and enhancing cyber resilience. VC-enabled SDT ensures accurate data feeds for security monitoring for both design and runtime. This design paradigm shift propagates innovative SDT modeling and analytics for securing future critical systems. This vision paper outlines intelligent SDT design through innovative techniques, exploring hybrid intelligence with data-driven and rule-based semantic SDT models. Various operational use cases are discussed for securing smart critical systems through underlying modeling and analytics capabilities.Comment: IEEE Submitted Paper: Trust, Privacy and Security in Intelligent Systems, and Application

A formal framework of human–machine interaction in proactive maintenance – MANTIS experience

The general concept of MANTIS project is to provide a proactive maintenance service platform architecture that allows to monitor essential system parameters and schedule maintenance in order to predict and prevent imminent failures. Human–machine interaction (HMI) is an important integral part of the platform by providing the right information in the right modality to the users when needed. As MANTIS comprises 11 distinct industrial use cases, the design of such HMI presents a great challenge. The framework presented in this paper originates from the scenariobased design and can be treated as a part of the overall scenario-based usability engineering approach. The framework has been conceived from an extensive list of HMI features extracted from the descriptions of use-case scenarios provided by each industrial partner. Due to the broad range of representative industry environments including production asset maintenance, vehicle maintenance, energy production management and health equipment maintenance we believe that the resulting HMI framework can be applied in different cases in practice and the paper would also be of general interest to the readers

Digital Twins for Industry 4.0 in the 6G Era

Having the Fifth Generation (5G) mobile communication system recently rolled out in many countries, the wireless community is now setting its eyes on the next era of Sixth Generation (6G). Inheriting from 5G its focus on industrial use cases, 6G is envisaged to become the infrastructural backbone of future intelligent industry. Especially, a combination of 6G and the emerging technologies of Digital Twins (DT) will give impetus to the next evolution of Industry 4.0 (I4.0) systems. This article provides a survey in the research area of 6G-empowered industrial DT system. With a novel vision of 6G industrial DT ecosystem, this survey discusses the ambitions and potential applications of industrial DT in the 6G era, identifying the emerging challenges as well as the key enabling technologies. The introduced ecosystem is supposed to bridge the gaps between humans, machines, and the data infrastructure, and therewith enable numerous novel application scenarios.Comment: Accepted for publication in IEEE Open Journal of Vehicular Technolog

A reference model for SMEs understanding of industry 4.0

Industry 4.0 is the largely debated fourth industrial revolution. However, a gap still existing in disseminating its principles in SMEs environment. Reference systems, namely Reference Architecture and Reference Model, seem to foster the actual implementation of system compliant with principles of Industry 4.0. Hence, a Reference Model is presented to cope with the need for a reference system that can be easily understood by SME managers, and can vouch for realization of Smart Factories of Industry 4.0

Preliminaries of orthogonal layered defence using functional and assurance controls in industrial control systems

Industrial Control Systems (ICSs) are responsible for the automation of different processes and the overall control of systems that include highly sensitive potential targets such as nuclear facilities, energy-distribution, water-supply, and mass-transit systems. Given the increased complexity and rapid evolvement of their threat landscape, and the fact that these systems form part of the Critical National infrastructure (CNI), makes them an emerging domain of conflict, terrorist attacks, and a playground for cyberexploitation. Existing layered-defence approaches are increasingly criticised for their inability to adequately protect against resourceful and persistent adversaries. It is therefore essential that emerging techniques, such as orthogonality, be combined with existing security strategies to leverage defence advantages against adaptive and often asymmetrical attack vectors. The concept of orthogonality is relatively new and unexplored in an ICS environment and consists of having assurance control as well as functional control at each layer. Our work seeks to partially articulate a framework where multiple functional and assurance controls are introduced at each layer of ICS architectural design to further enhance security while maintaining critical real-time transfer of command and control traffic

Developing effective hospital management information systems: A technology ecosystem perspective

This thesis presents the results of the program of research performed in the completion of a Doctor of Philosophy (Business) entitled: Developing Effective Hospital Management Information Systems: A Technology Ecosystem Perspective. The central contention of this thesis is that the current ecosystem models in the information technology (IT) and information systems (IS) literature can be extended and improved. In turn they can be better applied to the field of IS and the development and implementation of information systems. This research seeks to highlight an example of how these models can be extended, through an analysis of the specific context of the hospital management information system environment, using the technology ecosystems model (TEM) of Adomavicius et al (Adomavicius et al., 2005). The environment in which hospital managers operate is characterised by high demand pressures, strong public service expectations, and an ever diminishing income stream (in relative terms) with which to provide services. Even in private hospital care, many of these pressures still apply, as well as a pressure to maintain profit margins. The agenda context here is a complex one, particularly when one considers the role of hospitals in this context. Hospitals have multiple competing priorities when viewed from a management perspective. This is despite the fact that the core mission of the hospital is to provide timely, safe care within available human and financial resources, to patients who present for care. This care can be across multiple care settings inside the hospital including the inpatient space, the operating theatres, the intensive care unit, and the emergency department; and in outreach settings. Hospitals however, have been described as a series of cottage industries each loosely coupled with a common objective of supplying care to patients. All of these factors combine to mean that managing a hospital with the above-mentioned aim in mind, is a very difficult task. Nakagawa et al (Nakagawa et al., 2011) talk specifically to this difficulty. In this research I undertake this examination through 2 core exercises. Firstly I examine the literature – both the information related and health care literature, for insights into the questions at hand. Secondly I examine the lessons learned from five Case Studies (CSs). The first four of these are based in physical hospital facilities across three Australian states. The final one is a “virtual CS” in which the views of multiple parties, not centred on any given physical institution, are sought and examined in relation to these questions. Based on the data collected in both the literature review and the CS’, and through a process of triangulation and research model validation, I conclude that a hospital management technology ecosystem (a HOME) can be described. Its existence thus validates the core TEM, and in fact the findings support some meaningful extensions to the TEM. The HOME is predominantly characterised by the presence of strong drivers of change that arise from outside the immediate hospital environment. Examples include changes in the labour market, and the skill sets of workers; changes in the broader development and availability of technology (for example – think of the effects of the rise of smart phones), and changes in government policies and funding arrangements. In the majority of cases these broader influencing forces (Environment Shaping Forces – ESF’s) can be seen to act on the local management environment and the role of technology in that environment, through describable intermediaries. A very obvious example of this is the effect of a global financial downturn - eventually this wide reaching force could be expected to affect hospitals (be they private or public) through struggling performance of a parent company, or state government funding cutbacks. In turn this could easily lead to reduced spending on IT in a given hospital. These findings, along with those around services provided by the ecosystem, and the measurement of ecosystem success or failure, add substantially to the IS knowledge base in this area. This research thus acts as a sound basis for further research in this new direction, but also provides a usable conceptual and practical framework within which stakeholders – managers, clinicians, beauracrats and the software development community - can view the management of hospitals and the technologies in support of that management