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Big Data in een Smart City

Elk jaar organiseert het Leerhuis van het Projectmanagementbureau samen met de Hogeschool van Amsterdam een thematische seminarreeks.De koppeling van de wetenschappelijke theorie met de dagelijkse praktijk biedt een waardevolle verdieping van de kennis van de medewerkers van het Projectmanagementbureau. Centraal staat de toepasbaarheid in ons werk aan complexe en multidisciplinaire opgaven in Amsterdam.In 2018/2019 hebben we gekozen voor het smart city-concept, waarbij big data en tools roepen om toepassingsmogelijkheden in de aanpak van stedelijke problematiek.Wie in de media de discussie over de opkomst van smart cities volgt, krijgt vaak het beeld voorgeschoteld van een grote controlekamer, vol met monitors en schermen. Daarop worden allerhande processen in de stad op de minuut gevolgd: de doorstroming van het verkeer op de hoofdwegen, de weersverwachting en waterstanden, meldingen aan politie en brandweer of samenscholingen van menigtes in de openbare ruimte. Naast deze ‘control room’-visie staan twee minder bekende benaderingen: ‘Smart Citizens’ zet technologie in om burgers meer zeggenschap te geven, terwijl de ‘Creative City’ de stad beziet als ‘living lab’. Alle drie de verschijningsvormen van de smart city bieden kansen om de kwaliteit van leven in de stad te verbeteren, én roepen tegelijkertijd vragen op over hun doelmatigheid en legitimiteit.De verschillende bijdragen aan de seminarreeks over smart cities gingen dieper in op de mogelijkheden en valkuilen van de drie smart city perspectieven. Deze zijn gebundeld in dit magazine en aangevuld met een aantal lessen en handvatten voor de medewerkers van het PMB.

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Big Data in een Smart City

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De slimme stad

Technologie wordt door steden steeds vaker gebruikt om innovatieve beleidsoplossingen te ontwikkelen om de stedelijke omgeving leerbaar en veilig te houden (Yigitcanlar et.al, 2018; zie Allam & Newman, 2018). In de literatuur wordt naar een stad die technologie gebruikt, verwezen als een Smart City (Holland 2008; Kitchin, 2015; zie ook Meijer & Bolivar, 2016 voor uitgebreide conceptualisering van Smart City). Rotterdam gebruikt bijvoorbeeld gezichtsherkenning in het openbaar vervoer om onder meer zwartrijden tegen te gaan. De data die verzameld wordt, is niet alleen in bezit van de openbaar vervoersorganisatie. Maar is ook in handen van de ontwikkelaar van de gezichtsherkenning-software. Soms wordt de data ook gedeeld met de politie en gemeentelijke toezichthouders. Ook in Amsterdam speelt technologie een rol. De Johan Cruijff Arena investeert in technologische oplossingen om de veiligheid en de leefbaarheid in het gebied rondom het stadion op orde te houden. Hierbij werken zij samen met de gemeente Amsterdam, maar ook technologiebedrijven zoals Huawei en KPN. De bovenstaande voorbeelden wordt technologie ingezet om vraagstukken effectief en efficiënt aan te pakken. Dit creëert echter ook nieuwe uitdagingen. Er treden nieuwe partijen, zoals Huawei en KPN, toe tot het beleidsproces. Daarnaast wordt van publieke professionals verwacht dat zij de vaardigheden en kennis bezitten om digitaal beleid te ontwikkelen en uit te voeren.

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Projects 7

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Epy Drost as a Living Lab

A world where technology is ubiquitous and embedded in our daily lives is becoming increasingly likely. To prepare our students to live and work in such a future, we propose to turn Saxion’s Epy-Drost building into a living lab environment. This will entail setting up and drafting the proper infrastructure and agreements to collect people’s location and building data (e.g. temperature, humidity) in Epy-Drost, and making the data appropriately available to student and research projects within Saxion. With regards to this project’s effect on education, we envision the proposal of several derived student projects which will provide students the opportunity to work with huge amounts of data and state-of-the-art natural interaction interfaces. Through these projects, students will acquire skills and knowledge that are necessary in the current and future labor-market, as well as get experience in working with topics of great importance now and in the near future. This is not only aligned with the Creative Media and Game Technologies (CMGT) study program’s new vision and focus on interactive technology, but also with many other education programs within Saxion. In terms of research, the candidate Postdoc will study if and how the data, together with the building’s infrastructure, can be leveraged to promote healthy behavior through playful strategies. In other words, whether we can persuade people in the building to be more physically active and engage more in social interactions through data-based gamification and building actuation. This fits very well with the Ambient Intelligence (AmI) research group’s agenda in Augmented Interaction, and CMGT’s User Experience line. Overall, this project will help spark and solidify lasting collaboration links between AmI and CMGT, give body to AmI’s new Augmented Interaction line, and increase Saxion’s level of education through the dissemination of knowledge between researchers, teachers and students.

Finished

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Knowledge alliance for social innovation in shrinking villages

The main aim of KiNESIS is to create a Knowledge Alliance among academia, NGOs, communities, local authorities, businesses to develop a program of multidisciplinary activities in shrinking areas with the aim of promoting and fostering ideas, projects, workforce, productivity and attractiveness. The problems affecting peripheral territories in rural or mountain areas of the interior regions, compared to small, medium or large population centres and large European capitals, are related to complex but clear phenomena: the emigration of young generations, abandonment and loneliness of elderly people, the loss of jobs, the deterioration of buildings and land, the closing of schools and related services, the disappearance of traditions and customs, the contraction of local governments, which in absence of adequate solutions can only generate worse conditions, leading to the abandonment of areas rich in history, culture and traditions. It is important that these communities - spread all over Europe - are not abandoned since they are rich in cultural traditions, which need to be preserved with a view to new developments, intended as "intelligent" rebirth and recovery.The focus of KiNESIS is to converge the interest of different stakeholders by recalling various skills around abandoned villages to make them "smart" and "attractive".Keeping in mind the triangular objectives of cooperation and innovation of research, higher education and business of the Knowledge Alliance action, the project aims are: i) revitalising depopulated areas by stimulating entrepreneurship and entrepreneurial skills; ii) creating local living laboratories, shared at European level, in which the exchange of knowledge, best practices, experiences can help promote social inclusion and entrepreneurial development;iii) experimenting new, innovative and multidisciplinary approaches in teaching and learning; iv) facilitating the exchange, flow and co-creation of knowledge at a local and global level.

Finished

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Smart Asset Management in Buildings

Gebouwautomatiseringssystemen voor de utiliteitssector zoals kantoren, scholen, ziekenhuizen vereisen steeds meer functionaliteit om tegemoet te komen aan nieuwe eisen en wensen van gebouwbeheer en eindgebruikers op gebied van o.a. comfort, bezetting, onderhoud interieur, afvalbeheer, energie en dergelijke. De recente technologische ontwikkelingen maken het mogelijk om de gebouwbeheersystemen in te zetten voor innovatieve toepassingen. Maar door lastige toegankelijkheid van bestaande systemen kunnen gebouwbeheerders onvoldoende gebruik maken van deze vernieuwingen. Fabrikanten van gebouwbeheersystemen (GBS) hebben hun producten (vaak op basis van BACnet) veelal zo ingericht dat onderlinge competitie en vrije marktwerking voor verschillende vernieuwende elementen op gebied van digitalisering van beheer- en onderhoudstaken moeilijk is. Recente ontwikkelingen maken het mogelijk binnen de field layer van BACnet dat nieuwe devices aan het bestaande gebouwbeheersysteem gekoppeld kunnen worden en reeds bestaande devices kunnen worden aangestuurd. Nieuwe open source data-mining applicaties (bijv. van Rapid Miner, IBM, Oracle) bieden daarbij de mogelijkheid nieuwe gegevens te genereren om het beheer van gebouwen verder te optimaliseren. Deze ontwikkelingen maken de weg vrij voor verdere toepassingen en innovaties en bieden kansen voor betrokken bedrijven in deze sector. Echter, gebouwbeheerders en installateurs zijn nog onwetend of onzeker van de mogelijkheden m.b.t. prestaties, robuustheid, integreerbaarheid en ondersteuning terwijl de behoefte tot nieuwe diensten groeit. In dit KIEM project wordt met een consortium van een sensor/ICT-ontwikkelbedrijf (Octo), een totaal installateur (E+W) (Lomans Amersfoort), een gebouwbeheerder (HU bedrijfsvoering) en drie onderzoekers uit verschillende lectoraten van de hogeschool Utrecht verkend welke open source datamining tools en innovatieve sensorsystemen van belang kunnen zijn voor de huidige gebouwautomatisering. Er wordt verkend waar de knelpunten zijn en waar de kansen liggen tot integratie. Daarbij kan gedacht worden aan diensten op basis van gebouwbeheer zoals gegarandeerd comfortabel binnenklimaat, efficiënte bezettingsgraad van ruimtes, vernieuwend afvalbeheer en optimale energiehuishouding. Maar ook andere potentiële diensten zullen verder worden onderzocht samen met ketenpartners en ICT/sensorsysteem-innovators. Deze verkenningen worden vertaald naar een programma voor vervolgonderzoek.

Finished

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Smart Buildings for Climate Neutral Cities

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.

Ongoing

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TimeTravel: Digital Archives of Amsterdam’s Underground for Circular Building Practices

In summer 2020, part of a quay wall in Amsterdam collapsed, and in 2010, construction for a parking lot in Amsterdam was hindered by old sewage lines. New sustainable electric systems are being built on top of the foundations of old windmills, in places where industry thrived in the 19th century. All these examples have one point in common: They involve largely unknown and invisible historic underground structures in a densely built historic city. We argue that truly circular building practices in old cities require smart interfaces that allow the circular use of data from the past when planning the future. The continuous use and reuse of the same plots of land stands in stark contrast with the discontinuity and dispersed nature of project-oriented information. Construction and data technology improves, but information about the past is incomplete. We have to break through the lack of historic continuity of data to make building practices truly circular. Future-oriented construction in Amsterdam requires historic knowledge and continuous documentation of interventions and findings over time. A web portal will bring together a range of diverse public and private, professional and citizen stakeholders, each with their own interests and needs. Two creative industry stakeholders, Yume interactive (Yume) and publisher NAI010, come together to work with a major engineering office (Witteveen+Bos), the AMS Institute, the office of Engineering of the Municipality of Amsterdam, UNESCO NL and two faculties of Delft University of Technology (Architecture and Computer Science) to inventorize historic datasets on the Amsterdam underground. The team will connect all the relevant stakeholders to develop a pilot methodology and a web portal connecting historic data sets for use in contemporary and future design. A book publication will document the process and outcomes, highlighting the need for circular practices that tie past, present and future.

Finished

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Window of the Future

Zuyd University and partners will develop novel coatings that contribute to a reduction in energy consumption of houses and buildings. The built environment currently consumes 46% of all energy, mainly for heating and cooling. A strong reduction is required as part of the transition towards sustainable energy. This is expressed by ambitious targets set by the Parkstad region, which has set itself the target to be energy neutral in 2040. For the Window of the Future Zuyd University (lectoraat Nanostructured Materials) and DWI (post-doc) aims to develop infrared regulating coatings that keep the heat inside in winter and outside in summer. These coatings are expected to strongly contribute to reduction of energy consumption. We will develop coating materials for application on glass windows, which are transparent for visible light to allow maximal daylight entering the building, and simultaneously regulate the transmission and reflection of IR heat. Kriya and Physee (SMEs) will advise Zuyd on technical and economic challenges related to the development of IR regulating glass windows. OMT Solutions (SME) and SGS Intron will advise on characterization and the performance validation. The need for such windows is confirmed by TNO/The Brightlands Materials Center as central challenge in their Optoelectronics program. They contribute largely to this project. Large demonstrator windows will be coated, and installed in test houses for real-life testing and quantification of the energy reduction. Zuyd (lectoraat Solar Energy in the Built Environment) will quantify the impact of smart IR regulating windows on the energy transition by comparing their impact to other available technologies, e.g. solar cells. In this quantification, Zuyd will focus on the Parkstad region. Together with Parkstad and Maastricht University (Ph.D. student), Zuyd will also quantify the socio-economic impact, and promote the societal acceptance of smart IR regulating windows.

Finished

Products 1.584

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Big Data in een Smart City

MULTIFILE

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Big Data in een Smart City

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De slimme stad

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Projects 7

project

Epy Drost as a Living Lab

Finished

project

Knowledge alliance for social innovation in shrinking villages

Finished

project

Smart Asset Management in Buildings

Finished

project

Smart Buildings for Climate Neutral Cities

Ongoing

project

TimeTravel: Digital Archives of Amsterdam’s Underground for Circular Building Practices

Finished

project

Window of the Future

Finished

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Products 1.584

Big Data in een Smart City

Big Data in een Smart City

De slimme stad

De slimme stad

Smart and Age-Friendly Cities in Romania

Smart and Age-Friendly Cities in Romania

Viable solutions for smart sustainable cities

Viable solutions for smart sustainable cities

Gaining insights into dwelling characteristics using machine learning for policy making on nearly zero-energy buildings with the use of smart meter and weather data

Projects 7

Epy Drost as a Living Lab

Knowledge alliance for social innovation in shrinking villages

Smart Asset Management in Buildings

Smart Buildings for Climate Neutral Cities

TimeTravel: Digital Archives of Amsterdam’s Underground for Circular Building Practices

User Satisfaction in Smart Environments: The Case "Stadhuistoren" Smart Office Building of Municipality of Eindhoven

Window of the Future

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Products 1.584

Big Data in een Smart City

Big Data in een Smart City

De slimme stad

De slimme stad

Smart and Age-Friendly Cities in Romania

Smart and Age-Friendly Cities in Romania

Viable solutions for smart sustainable cities

Viable solutions for smart sustainable cities

Gaining insights into dwelling characteristics using machine learning for policy making on nearly zero-energy buildings with the use of smart meter and weather data

Projects 7

Epy Drost as a Living Lab

Knowledge alliance for social innovation in shrinking villages

Smart Asset Management in Buildings

Smart Buildings for Climate Neutral Cities

TimeTravel: Digital Archives of Amsterdam’s Underground for Circular Building Practices

User Satisfaction in Smart Environments: The Case "Stadhuistoren" Smart Office Building of Municipality of Eindhoven

Window of the Future