In this short paper, we give an overview on how this major trend is unfolding and, specifically, how it affects cities. We take the following starting points: • Digitalization is a strong force that “happens” everywhere in the (urban) society. It has positive and negative effects – explored later in this paper –, which might be promoted or redressed by collective action or government intervention. Rejecting or denying it may come at high costs; • Digital technologies offer new tools and answers to address urban issues; • Digital technologies and their adoption bring a lot of new and unpredictable challenges; • Digital technologies raise several new ethical questions and dilemma’s regarding privacy, safety and security; • As in any other major societal transition, legal and institutional systems are not prepared for the digital age. Reality is always ahead of new regulation, resulting in constantly moving “grey areas” where it is unclear which rules (should) apply – think of how to deal with services like AirBnB or Uber.
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Abstract not available (Editorial). Original publication at MDPI: https://doi.org/10.3390/ijerph18041644 © 2021 by the authors. Licensee MDPI.
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In recent years, it has become a commonplace to argue that cities should be the focus point of sustainable development. Various authors have presented a variety of arguments why cities should be the preferred target to foster sustainable development-focused innovation; - The average consumption of resources of urban dwellers is higher. - The population of cities is growing continuously, while rural populations stabilize. - Deteriorating living conditions and segregation in cities caused by processes of gentrification of traditional neighbourhoods that drive out lower income groups to the suburbs. - Cities are ‘concentrated’ emitters of pollutants and therefore solutions and re-use might be easier to implement. https://doi.org/10.3390/su11185013 LinkedIn: https://www.linkedin.com/in/karel-mulder-163aa96/
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Making buildings smarter will save energy and make energy systems more flexible to address grid congestion. This is done by adding smart functionalities (such as machine learning and AI) to existing building management systems and by making full use of building data. Applied research and innovation on smart buildings is urgently needed to evaluate the best smart solutions for buildings applicable to different types of buildings across different contexts, and to assess their costs and benefits. Research on smart buildings, therefore, plays a large role in European, national and regional R&I agenda’s on energy, climate and digitalisation. Amsterdam University of Amsterdam (AUAS) has a growing research group on building energy management and smart buildings, supporting the sustainable transition of its own campus and the Amsterdam region. However, to date, AUAS has not been able to engage in international research projects in this area. Recently, AUAS became a partner in an European University Alliance (U!REKA European University), U!REKA comprises of six universities of applied sciences across Europe with its mission focusing on climate neutral communities and cities. Several partners with U!REKA are also conducting research on smart buildings and smart campuses, but, like AUAS, still in relative isolation. U!REKA will provide the collaboration framework for future joint research to be kick-started by the proposed SIA pilot project. In this research project, AUAS will cooperate with the Technical University Eindhoven, Metropolia University of Applied Sciences (Helsinki) and Politecnico de Lisboa (Lisbon) as consortium partners. Supporting partners are Frankfurt University of Applied Sciences, KTH Royal Institute of Technology (Stockholm) and TVVL (Dutch knowledge platform and association of professionals in the installation sector). The research is based on smart building case studies on the campuses of the project partners.
Client: ERA-NET Cofund Smart Cities and Communities, JPI Urban EuropeUrban tourism generates income for cities and create opportunities for its businesses and employment for its residents. However, it can also lead to overcrowding, pollution, noise and numerous other problems, thus reducing quality of life for residents and other local stakeholders and potentially leading to public discontent. This project introduces SCITHOS as a concept that consists of guidelines and tools to help cities find solutions to make the transition towards environmentally and socially responsible urban tourism that simultaneously contributes to long-term prosperity.Within SCTHOS this is done by combining hospitality principles, simulation tools, apps and serious gaming techniques to support policymakers and other stakeholders in generating collaborative deep reflections about barriers to sustainable urban tourism and the need for transition or adaptation strategies. The project supports the assessment of intervention strategies based on an interactive simulation-supported multi-stakeholder approach that triggers social learning and behavior change, while stimulating shared governance and smart citizenship.Guidelines/ tools and the full concept are developed through a series of living labs and field experiments in participating cities. What is more, a Smart City Hospitality network is set up to ensure accessibility to this concept, including all tools and experiences with using them. The final results of the projects are presented 10 and 11 September 2019 in Vienna, as a pre-session to the popular annual Tourism conference (TOURMIS).
Climate change has impacted our planet ecosystem(s) in many ways. Among other alterations, the predominance of long(er) drought periods became a point of concern for many countries. A good example is The Netherlands, a country known by its channels and abundant surface water, which has listed “drought effect mitigation” among the different topics in the last version of its “Innovation Agenda” (Kennis en Innovatie Agenda, KIA). There are many challenges to tackle in such scenario, one of them is solutions for small/decentralized communities that suffer from dry-up of surface reservoirs and have no groundwater source available. Such sites are normally far from big cities and coastal zones, which impair the supply via distribution networks. In such cases, Atmospheric Water Generation (AWG) technologies are a plausible solution. These systems have relatively small production rates (few m3 per day), but they can still provide enough volume for cities with up to 100k inhabitants. Despite having real scale systems already installed in different locations worldwide, most systems are between TRL 5 and 6. Thus need further development. SunCET proposes an in-situ evaluation of an AWG system (WaterWin) developed by two different Dutch companies (Solaq and Sustainable Eyes) in the Brazilian semi-arid state of Ceará. The cooperation with NHL Stenden will provide the necessary expertise, analytical and technical support to conduct the tests. The state government of Ceará built an infrastructure to support the realization of in-situ tests, as they want to further accelerate technology implementation in the state. Such structure will make it possible to share costs and decrease total investments for the SMEs. Finally, it is also intended to help establishing partnerships between Dutch SMEs and Brazilian end users, i.e. municipalities of the Ceará state and small agriculture companies in the region.
