Academic design research often fails to contribute to design practice. This dissertation explores how design research collaborations can provide knowledge that design professionals will use in practice. The research shows that design professionals are not addressed as an important audience between the many audiences of collaborative research projects. The research provides insight in the learning process by design professionals in design research collaborations and it identifies opportunities for even more learning. It shows that design professionals can learn about more than designing, but also about application domains or project organization.
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Het lectoraat Co-Design van Hogeschool Utrecht doet met een systemisch-inclusieve ontwerpende aanpak praktijkgericht onderzoek, om complexe maatschappelijke vraagstukken te helpen oplossen. Binnen die onderzoeken stellen we vragen over het ontwerpproces en de mensen die daarbij betrokken zijn. Hoe kun je goed co-designen in de weerbarstige werkelijkheid? Wat kan helpen in die ontwerpende aanpak? Hoe kunnen mensen die niet zijn opgeleid als ontwerpers volwaardig meedoen in het ontwerpproces, en wat hebben zij daarvoor nodig aan ontwerpend vermogen? De kennis over ontwerpend vermogen die we de afgelopen vier jaar hebben opgedaan, delen we in dit boekje. We hebben dat proces getekend en beschreven als een reisverhaal van Co, die ons meeneemt op een boot over een rivier, door stroomversnellingen en langs landschappen. Met bijdragen van: Marry Bassa, Anita Cremers, Tanja Enninga, Anita van Essen, Christa van Gessel, Berit Godfroij, Joep Kuijper, Remko van der Lugt, Caroline Maessen, Lenny van Onselen, Dirk Ploos van Amstel, Karlijn van Ramshorst, Carolijn Schrijver, Fenne Verhoeven, Danielle Vossebeld, Rosa de Vries
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In this paper we explore the influence of the physical and social environment (the design space) son the formation of shared understanding in multidisciplinary design teams. We concentrate on the creative design meeting as a microenvironment for studying processes of design communication. Our applied research context entails the design of mixed physical–digital interactive systems supporting design meetings. Informed by theories of embodiment that have recently gained interest in cognitive science, we focus on the role of interactive “traces,” representational artifacts both created and used by participants as scaffolds for creating shared understanding. Our research through design approach resulted in two prototypes that form two concrete proposals of how the environment may scaffold shared understanding in design meetings. In several user studies we observed users working with our systems in natural contexts. Our analysis reveals how an ensemble of ongoing social as well as physical interactions, scaffolded by the interactive environment, grounds the formation of shared understanding in teams. We discuss implications for designing collaborative tools and for design communication theory in general.
MULTIFILE
Renewable energy, particularly offshore wind turbines, plays a crucial role in the Netherlands' and EU energy-transition-strategies under the EU Green Deal. The Dutch government aims to establish 75GW offshore wind capacity by 2050. However, the sector faces human and technological challenges, including a shortage of maintenance personnel, limited operational windows due to weather, and complex, costly logistics with minimal error tolerance. Cutting-edge robotic technologies, especially intelligent drones, offer solutions to these challenges. Smaller drones have gained prominence through applications identifying, detecting, or applying tools to various issues. Interest is growing in collaborative drones with high adaptability, safety, and cost-effectiveness. The central practical question from network partners and other stakeholders is: “How can we deploy multiple cooperative drones for maintenance of wind turbines, enhancing productivity and supporting a viable business model for related services?” This is reflected in the main research question: "Which drone technologies need to be developed to enable collaborative maintenance of offshore wind turbines using multiple smaller drones, and how can an innovative business model be established for these services? In collaboration with public and private partners, Saxion, Hanze, and RUG will research the development of these collaborative drones and investigate the technology’s potential. The research follows a Design Science Research methodology, emphasizing solution-oriented applied research, iterative development, and rigorous evaluation. Key technological building blocks to be developed: • Morphing drones, • Intelligent mechatronic tools, • Learning-based adaptive interaction controllers and collaborations. To facilitate the sustainable industrial uptake of the developed technologies, appropriate sustainable business models for these technologies and services will be explored. The project will benefit partners by enhancing their operations and business. It will contribute to renewing higher professional education and may lead to the creation of spin-offs/spinouts which bring this innovative technology to the society, reinforcing the Netherlands' position as a leading knowledge economy.
The BECEE initiative represents a transformative collaboration between four leading European HEIs—Hanze University of Applied Sciences (HUAS), Zurich University of Applied Sciences (ZHAW), South East Technological University (SETU), and Universiteti "Aleksandër Moisiu" Durrës (UAMD). Our consortium embodies the essence of BECEE and the EIT Knowledge Triangle Model because it also comprises of 4 industry partners (KPN, Eindhoven, The Netherlands, Innofuse, Zurich, Switzerland, Dungarvan Enterprise Centre, South East, Ireland, and Linda Laboratory, Durrës, Albania) bringing together partners from education, research, and business who are equally committed to collaborate on innovation action plans to fostering balanced collaborative entrepreneurship ecosystems in our respective regions. This consortium, therefore, is strategically designed to pool diverse strengths, creating a synergetic force for innovation and entrepreneurship that transcends the capabilities of any single organisation.
In order to achieve much-needed transitions in energy and health, systemic changes are required that are firmly based on the principles of regard for others and community values, while at the same time operating in market conditions. Social entrepreneurship and community entrepreneurship (SCE) hold the promise to catalyze such transitions, as they combine bottom-up social initiatives with a focus on financially viable business models. SCE requires a facilitating ecosystem in order to be able to fully realize its potential. As yet it is unclear in which way the entrepreneurial ecosystem for social and community entrepreneurship facilitates or hinders the flourishing and scaling of such entrepreneurship. It is also unclear how exactly entrepreneurs and stakeholders influence their ecosystem to become more facilitative. This research programme addresses these questions. Conceptually it integrates entrepreneurial ecosystem frameworks with upcoming theories on civic wealth creation, collaborative governance, participative learning and collective action frameworks.This multidisciplinary research project capitalizes on a unique consortium: the Dutch City Deal ‘Impact Ondernemen’. In this collaborative research, we enhance and expand current data collection efforts and adopt a living-lab setting centered on nine local and regional cases for collaborative learning through experimenting with innovative financial and business models. We develop meaningful, participatory design and evaluation methods and state-of-the-art digital tools to increase the effectiveness of impact measurement and management. Educational modules for professionals are developed to boost the abovementioned transition. The project’s learnings on mechanisms and processes can easily be adapted and translated to a broad range of impact areas.
