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This chapter explores the evolution of smart city thinking in order to have a clear understanding of what is involved in effectively and sustainably implementing a Smart City 4.0 strategy. The chapter illustrates that the concept of smart cities has evolved from the technology driven implementations to Cities as Open Innovation Platforms. These open and participatory platforms facilitate the interaction and collaboration of the city's citizens, government, industry, entrepreneurs, academia, creatives and the social sector so that they can harness their collective intelligence for innovation, experimentation and implementation of solutions that creates real transformational value for the betterment of the city's and its stakeholders. The author also identifies the key dimensions on which a smart city 4.0 concept must be built upon but highlights that depending on the composition of its stakeholder ecosystem, the City will prioritise different dimensions and so each smart city is unique. The chapter builds upon the experience of implementing a Smart City 4.0 project in Waterford, Ireland. Details of the smart city initiatives implemented are illustrates with examples.

The article attempts to shed light on the social aspects of research that deal with Sustainable Development Goals (SDGs) and sustainable cities. The aim is to offer a global view of these facets' evolution and to provide information on people-centered smart cities.

The research is qualitative. A systematic bibliometric approach is a framework for the research. The unit of analysis is publications on SDGs and Smart Cities (SCs) indexed in Scopus. The authors used VOSviewer text mining functionality to construct co-occurrence networks of socially related critical terms extracted from textual data. The co-occurrence of keywords presents a valuable method and process for attaining in-depth analysis and fast comprehension of trends and linkages in articles from a holistic approach.

Social media, social sustainability and social capital are the three multifaceted social keywords that co-occur in SDGs and SCs. The paper provides a brief compendium of resources and frameworks to build a socially sustainable smart city.

The retrieval date was on 15 August 2019. The authors used the same search query for new papers released in 2019 and afterwards to update their findings. The authors collected 657 documents on SCs, compared to 2,975 documents about SDGs demonstrating that their findings are still trending in the same direction, emphasizing the importance of the research topic. SCs' social aspects are still chartered areas that require the attention to future research.

The authors’ decision to use two separate data sets for SCs and SDGs data files helps to provide a more comprehensive picture of the research landscape. It may identify areas where research is lacking or needs future research. The authors present an integrative agenda for a smart city to be socially sustainable. Innovative approaches to urban planning are required to empower the place and context and improve the users' satisfaction, where innovative solutions enable smart, sustainable and inclusive societies. Infrastructure governance is a critical keystone. It could guarantee that public investments contribute to sustainable urban development while enhancing city resilience, particularly in facing climate change and inclusive growth challenges.

With debate in the industry turning lately to the power and consequence of lightning strikes on various items of electrical and electronic equipment ICORE International commissioned a series of tests, conducted by the Lightning Test and Technology Unit at Abingdon‐based Culham Laboratories, into the effects of lightning strikes on their conduit products.

Blockchain technology offers numerous venues for supply chain applications and research. However, the connections between specific blockchain features and future applications have been unclear to date in its evolution. The purpose of this study is to fill this void.

The authors advance the understanding of blockchain in supply chain management by providing a new research framework built on unique blockchain features as applied across core supply chain functions.

This study’s framework is a feature-function matrix that integrates four overarching supply chain functions (i.e. supplier management, logistics, production processes and customer management) with nine blockchain features (i.e. traceability/provenance, accessibility, visibility, immutability, distributed/shared ledger, validity, peer-to-peer transacting, pseudonymity and programmability). This study’s feature-function framework is supported by a structured, systematic review of reviews using PRISMA methods. The authors use the framework to present a future blockchain research agenda in supply chain management.

The authors provide a new blockchain feature/supply chain function framework and provide a structured path for future research.

Transport governance is dependent on, and works through, legally defined or socially accepted categories that are challenged by the technological and business disruptions that characterize smart mobility. This chapter explores the dynamic interactions between the categories of transport governance and new (disruptive) forms of mobility, using a framework that highlights the ways governance solutions are influenced by how problems are framed. The argument is made through two empirical cases – of car sharing and motorized (electric) personal mobility devices. Car sharing emerged quietly onto the transport landscape in Australia, and has been accommodated and facilitated by local government parking policies. In this case, the tools for governing smart mobility already existed, and became adaptable to new imperatives. Personal mobility devices (PMDs), battery-powered motorized devices designed to be used by an individual on footpaths or shared user paths, are neither common nor legal on many roads or footpaths. The process through which PMDs became regulated in the Australian state of Queensland is used to illustrate the ways in which ‘epistemic experimentation’ can challenge regulatory framings and foster the introduction of new forms of smart mobility. The chapter concludes that smart mobility both disrupts and confirms dominant framings of transport governance, especially in relation to automobility, and that further challenges will need to be met as autonomous vehicles become more widespread across transport infrastructure.

Cities and the tourism industry are closely related. Cities are destinations that serve for the welfare of the people and the tourists visiting the city. The tourism sector, on the other hand, uses the environmental and sociocultural resources of the cities, ensures that these resources are transferred to the future by protecting them, and contributes to the economic development of the cities by creating employment. Several urban models have been created within this framework to make urban tourism viable. Eco-city tourism is one of these urban design concepts. Eco-city tourism aims to protect cities from sociocultural, economic, and environmental factors while promoting their growth. Eco-city tourism, which includes a number of practices such as prevention of pollution, protection of biological diversity, consumption of renewable energy, production of local products, employment, and protection of cultural values, is easily implement in cities in an integrated manner with smart technological systems. Smart building and smart energy systems for energy saving, mobile applications, Wi-Fi, big data, Internet of Things (IoT), and cloud computing are among the smart technological systems used in the tourism sector.

Today, the transport industry is facing increasing demands on reducing both the environmental impact and cost of freight transports. Another demand, coming from the end consumers, is the demand for ecological accountability, so‐called ecological foot‐printing, meaning that the emission of every freight movement is distributed to the freight. Previous research shows that transport planning, system integration and control are some of the key factors to achieve more sustainable transport setups. One of the major obstacles preventing these factors is the complexity of international supply chains, with several involved actors. Smart Freight is a holistic concept, integrating transport management and state‐of‐the‐art technologies for freight tracking and vehicle monitoring, in order to enable improved management and accountability of freight transportation. The purpose of this research is to explore how Smart Freight can be used to control, track and reduce the environmental impact of goods transportation. This research is based on two in‐depth case studies and a demonstration prototype of one of the studied transport setups. An extensive amount of data was collected between 2006 and 2008 through interviews, video filming, document studies, physical travel with the freight flows, seminars, prototype building, literature and desktop studies. The result of this research highlights the weaknesses in today’s control of transport operations and presents a model for how Smart Freight enables a more environmentally friendly and accountable transport system.