Overlay virtualized wireless sensor networks for application in industrial internet of things : a review

Abstract: In recent times, Wireless Sensor Networks (WSNs) are broadly applied in the Industrial Internet of Things (IIoT) in order to enhance the productivity and efficiency of existing and prospective manufacturing industries. In particular, an area of interest that concerns the use of WSNs in IIoT is the concept of sensor network virtualization and overlay networks. Both network virtualization and overlay networks are considered contemporary because they provide the capacity to create services and applications at the edge of existing virtual networks without changing the underlying infrastructure. This capability makes both network virtualization and overlay network services highly beneficial, particularly for the dynamic needs of IIoT based applications such as in smart industry applications, smart city, and smart home applications. Consequently, the study of both WSN virtualization and overlay networks has become highly patronized in the literature, leading to the growth and maturity of the research area. In line with this growth, this paper provides a review of the development made thus far concerning virtualized sensor networks, with emphasis on the application of overlay networks in IIoT. Principally, the process of virtualization in WSN is discussed along with its importance in IIoT applications. Different challenges in WSN are also presented along with possible solutions given by the use of virtualized WSNs. Further details are also presented concerning the use of overlay networks as the next step to supporting virtualization in shared sensor networks. Our discussion closes with an exposition of the existing challenges in the use of virtualized WSN for IIoT applications. In general, because overlay networks will be contributory to the future development and advancement of smart industrial and smart city applications, this review may be considered by researchers as a reference point for those particularly interested in the study of this growing field

China's Soft Power Success in Esports

학위논문(석사) -- 서울대학교대학원 : 국제대학원 국제학과(국제협력전공), 2021.8. 문유정.By 2018, China had become an indisputable leader in the global esports scene. Yet its modern, international image as a game-changer sat diametrically opposite to a China, according to mainstream media, that was in pursuit of power and a dream of becoming a global leader. Moreover, China’s success in establishing soft power in the world of esports also contrasted to its tireless but futile efforts to refurbish its national brand. Hence, this paper asks, why and how did China achieve soft power success through esports? I fundamentally argue that the nonstop, cyclical interplay of the three dimensions—structure (measured by the network topology), culture (defined by the level of its diffusion or diffusibility), and society (based on its compatibility to structural and cultural changes)—in the two-decade-long development of China’s esports resulted in a greater vigor of China’s soft power.현재까지 논의된 소프트파워 연구는 문화자원에서 비롯된 소프트파워 전환 메커니즘을 지나치게 간소화한 이론적 모델에 의존하고 있다. 때문에, 실제 소프트파워 증강 과정을 이해하기 위해서는 구조적∙문화적∙사회적 변화를 중심으로 한 3차원 모델을 통한 분석이 필요하다. 본 논문은 이와 같은 3차원 모델을 기반으로 이스포츠를 통한 중국의 소프트 파워 부상에 대한 사례를 연구하고자 한다. 결과적으로, 중국의 이스포츠 발전이 이루어진 네트워크 구조의 특성과 문화적 전파에 따른 신∙구 문화의 공존과 융합, 그리고 시류에 알맞은 사회적 변화가 중국이 세계 이스포츠의 중심축으로 성장하는 토대가 되었다. 즉, 이러한 이스포츠 발전 배경 속에 중국은 21세기 문화적 자원을 통한 성공적인 소프트파워의 향상을 낳았다.I. Introduction 1 II. A Three-Dimensional Model of Soft Power 7 III. Literature Review 23 3.1 Discourse on China’s Soft Power 23 3.2 Discourse on China’s Esports 30 IV. Research Design 41 V. The Development of China’s Esports 45 5.1 Phase 1: Esports as a Game 45 5.2 Phase 2: Esports as a Sport 53 5.3 Phase 3: Esports as Media 74 5.4 Summary 95 VI. China’s Soft Power, Quantified 99 VII. Conclusion 106 References 110 Acknowledgements 129석

A Holistic Analysis of Internet of Things (IoT) Security : Principles, Practices, and New Perspectives

Peer reviewedPublisher PD

Supporting the consumption and co-authoring of locative media experiences for a rural village community: design and field trial evaluation of the SHARC2.0 framework

Locative Media Experiences (LMEs) have significant potential in enabling visitors to engage with the places that they visit through an appreciation of local history. For example, a visitor to Berlin that is exploring remnants of the Berlin Wall may be encouraged to appreciate (or in part experience) the falling of the Berlin wall by consuming multimedia directly related to her current location such as listening to audio recordings of the assembled crowds on 10th November 1989. However, despite the growing popularity of enabling technologies (such as GPS-equipped smart phones and tablets), the availability of tools that support the authoring of LMEs is limited. In addition, mobile apps that support the consumption of LMEs typically adopt an approach that precludes users from being able to respond with their own multimedia contributions. In this article we describe the design and evaluation of the SHARC2.0 framework that has been developed as part of our long-term and participatory engagement with the rural village of Wray in the north of England. Wray has very limited cellular data coverage which has placed a requirement on the framework and associated tools to operate without reliance on network connectivity. A field study is presented which featured a LME relating to Wray’s local history and which contained multimedia content contributed by members of the community including historic photos (taken from an existing ‘Digital Noticeboard’ system), audio-clips (from a local historian and village residents) and video (contributed during a design workshop). The novelty of our approach relates to the ability of multiple authors to contribute to a LME in-situ, and the utilisation of personal cloud storage for storing the contents associated with a multi-authored LME

The Global Risks Report 2016, 11th Edition

Now in its 11th edition, The Global Risks Report 2016 draws attention to ways that global risks could evolve and interact in the next decade. The year 2016 marks a forceful departure from past findings, as the risks about which the Report has been warning over the past decade are starting to manifest themselves in new, sometimes unexpected ways and harm people, institutions and economies. Warming climate is likely to raise this year's temperature to 1° Celsius above the pre-industrial era, 60 million people, equivalent to the world's 24th largest country and largest number in recent history, are forcibly displaced, and crimes in cyberspace cost the global economy an estimated US$445 billion, higher than many economies' national incomes. In this context, the Reportcalls for action to build resilience – the "resilience imperative" – and identifies practical examples of how it could be done.The Report also steps back and explores how emerging global risks and major trends, such as climate change, the rise of cyber dependence and income and wealth disparity are impacting already-strained societies by highlighting three clusters of risks as Risks in Focus. As resilience building is helped by the ability to analyse global risks from the perspective of specific stakeholders, the Report also analyses the significance of global risks to the business community at a regional and country-level

Internet of Things for system integrity: a comprehensive survey on security, attacks and countermeasures for industrial applications

The growth of the Internet of Things (IoT) offers numerous opportunities for developing industrial applications such as smart grids, smart cities, smart manufacturers, etc. By utilising these opportunities, businesses engage in creating the Industrial Internet of Things (IIoT). IoT is vulnerable to hacks and, therefore, requires various techniques to achieve the level of security required. Furthermore, the wider implementation of IIoT causes an even greater security risk than its benefits. To provide a roadmap for researchers, this survey discusses the integrity of industrial IoT systems and highlights the existing security approaches for the most significant industrial applications. This paper mainly classifies the attacks and possible security solutions regarding IoT layers architecture. Consequently, each attack is connected to one or more layers of the architecture accompanied by a literature analysis on the various IoT security countermeasures. It further provides a critical analysis of the existing IoT/IIoT solutions based on different security mechanisms, including communications protocols, networking, cryptography and intrusion detection systems. Additionally, there is a discussion of the emerging tools and simulations used for testing and evaluating security mechanisms in IoT applications. Last, this survey outlines several other relevant research issues and challenges for IoT/IIoT security

BIM Effect on the Quality of Communication in the Project Management of Smart Cities

The concept of smart cities points out the future cities, which will incorporate IoT and digitalization for facilitating the communication among people, their devices, government services, and various facilities that can provide enough services for the enormous population in the future cities. To achieve the goal of having the ideal smart cities, it is necessary to go digital and plan for having virtual imagination for every component in the cities, including the construction facilities. BIM method as a means of having a virtual vision of each element of the construction project glows in mind as one sort of assistance to reach this target. This thesis investigates the impact of BIM on the quality of communication in the future smart cities based on the literature review of the three smartest cities including Singapore, London, and Manchester.:Table of Contents List of Figures IV List of Tables V List of Abbreviations VI 1 Introduction 1 1.1 Problem Statement 1 1.2 Aim of the Study 3 1.3 Research Question 4 1.4 Methodology 4 1.5 Structure of Work 5 2 Research Methodology 6 2.1 Introduction 6 2.2 Overview of Common Research Methods 6 2.2.1 Inductive Method 6 2.2.2 Deductive Method 7 2.2.3 Inductive vs. Deductive Method 8 2.2.4 Quantitative Research 8 2.2.5 Qualitative Research 9 2.2.6 Tools for Data Collection 10 2.3 Research Scheme of This Thesis 16 3 Literature Review and Historical Background 19 3.1 Introduction to BIM 19 3.2 BIM Definition 20 3.2.1 National Institute of Building Sciences (NIBS) 20 3.2.2 Autodesk 22 3.2.3 Associated General Contractors of America (AGC) 22 3.3 BIM Levels 24 3.4 Application of BIM 25 3.4.1 Advantages of BIM 27 3.4.2 Disadvantages of BIM 29 3.5 History of employing BIM in construction projects 30 3.5.1 Before the year 2000 30 3.5.2 After the year 2000 31 3.6 Communication in construction projects 32 3.6.1 Communication, Combination of Factors 32 3.6.2 Communication Disorders in Construction Projects 33 3.7 BIM and Project Management 35 3.7.1 BIM vs. PMBOK 36 3.8 Smart Cities 36 3.8.1 Communication in smart city projects 37 3.8.2 Project Management in Smart Cities 39 3.9 Literature Review or Relevant previous studies 40 4 Case- Study 44 4.1 Singapore 44 4.1.1 BIM Use in Singapore 45 4.1.2 ITS Projects in Singapore 49 4.1.3 Intelligent Productivity and Safety System (IPASS) 50 4.1.4 Addressing Communication Challenges by BIM in the projects in Singapore 50 4.2 London, United Kingdom (UK) 52 4.2.1 Smart Projects in London (UK) 53 4.2.2 BIM Use in UK 55 4.2.3 Addressing Communication Challenges by BIM in the projects in UK 56 5 Conclusion 61 5.1 Summary of results 61 5.1.1 Findings of the Questions 62 5.2 Further Research Recommendation 63 Bibliography VII

Commodity single board computer clusters and their applications

© 2018 Current commodity Single Board Computers (SBCs) are sufficiently powerful to run mainstream operating systems and workloads. Many of these boards may be linked together, to create small, low-cost clusters that replicate some features of large data center clusters. The Raspberry Pi Foundation produces a series of SBCs with a price/performance ratio that makes SBC clusters viable, perhaps even expendable. These clusters are an enabler for Edge/Fog Compute, where processing is pushed out towards data sources, reducing bandwidth requirements and decentralizing the architecture. In this paper we investigate use cases driving the growth of SBC clusters, we examine the trends in future hardware developments, and discuss the potential of SBC clusters as a disruptive technology. Compared to traditional clusters, SBC clusters have a reduced footprint, are low-cost, and have low power requirements. This enables different models of deployment—particularly outside traditional data center environments. We discuss the applicability of existing software and management infrastructure to support exotic deployment scenarios and anticipate the next generation of SBC. We conclude that the SBC cluster is a new and distinct computational deployment paradigm, which is applicable to a wider range of scenarios than current clusters. It facilitates Internet of Things and Smart City systems and is potentially a game changer in pushing application logic out towards the network edge

Managing pervasive sensing campaigns via an experimentation-as-a-service platform for smart cities

The adoption of technologies like the IoT in urban environments, together with the intensive use of smartphones, is driving transformation towards smart cities. Under this perspective, Experimentation-as-a-Service within OrganiCity aims to create an experimental facility with technologies, services, and applications that simplify innovation within urban ecosystems. We discuss here tools that facilitate experimentation, implementing ways to organize, execute, and administer experimentation campaigns in a smart city context. We discuss the benefits of our framework, presenting some preliminary results. This is the first time such tools are paired with large-scale smart city infrastructures, enabling both city-scale experimentation and cross-site experimentation.This work was partially supported by the OrganiCity research project funded by the European Union, under the grant agreement No. 645198 of the Horizon 2020 research and innovation progra