Collaborative approaches to destination design require conscious and reflexive stakeholder involvement in activities and decision making. Design science studies such participatory processes by observing design teams in practice. From these observations, scientists have identified design strategies and processes that design teams use to support their work in identifying problems and developing solutions. Observing design processes in tourism destinations provides an opportunity to identify successful co-design strategies for destination design. This study presents three key co-design strategies based on data collected from five living labs in five destinations. Each co-design strategy is presented with a recommended use, suggestions for stakeholder involvement, and activities to develop solutions efficiently and effectively with the available resources. Together, the strategies provide a framework to optimise decision-making in relation to shaping destination design processes, and to validate processes and outcomes.
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International comparative analysis of former textile cities and their 'comeback strategies'. In this chapter results are showed from the design workshop by students from the Tilburg Academy of Architecture and Urbanism
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Based on a literature review, this article discusses how the challenge of diminishing clothing production volumes has been approached within the field of sustainable fashion. We identify six common strategies in literature and discuss the approach of user involvement in the process of design and/or manufacture of garments in detail. A critical analysis of the state of the art in the field points out that these strategies have been constructed, studied and promoted without empirical validation. The article concludes with a recommendation to move forward from conceptual to empirical studies. Analyses of existing initiatives and their results in terms of consumer buying behavior and obsolete inventory are recommended as first steps towards validation.
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Due to societal developments, like the introduction of the ‘civil society’, policy stimulating longer living at home and the separation of housing and care, the housing situation of older citizens is a relevant and pressing issue for housing-, governance- and care organizations. The current situation of living with care already benefits from technological advancement. The wide application of technology especially in care homes brings the emergence of a new source of information that becomes invaluable in order to understand how the smart urban environment affects the health of older people. The goal of this proposal is to develop an approach for designing smart neighborhoods, in order to assist and engage older adults living there. This approach will be applied to a neighborhood in Aalst-Waalre which will be developed into a living lab. The research will involve: (1) Insight into social-spatial factors underlying a smart neighborhood; (2) Identifying governance and organizational context; (3) Identifying needs and preferences of the (future) inhabitant; (4) Matching needs & preferences to potential socio-techno-spatial solutions. A mixed methods approach fusing quantitative and qualitative methods towards understanding the impacts of smart environment will be investigated. After 12 months, employing several concepts of urban computing, such as pattern recognition and predictive modelling , using the focus groups from the different organizations as well as primary end-users, and exploring how physiological data can be embedded in data-driven strategies for the enhancement of active ageing in this neighborhood will result in design solutions and strategies for a more care-friendly neighborhood.
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.
Chronische pijn is een groot, complex en duur probleem en heeft een grote impact op de kwaliteit van leven van patiënten, dagelijks functioneren, stemming en ziekteverzuim. Er zijn verschillende interventies ontwikkeld die met name gericht zijn op het beïnvloeden en veranderen van het gedrag waarbij zelfmanagement een belangrijke rol speelt. Echter het bestendigen van resultaten op lange termijn blijkt een groot probleem en leidt zelfs tot terugval naar “oud” gedrag waardoor patiënten opnieuw vaak kostbare hulp gaan zoeken. Er zijn twee additionele interventies ontwikkeld in een eerder RAAK-project (SOLACE) ter voorkoming van deze terugval: “Do It Your Self” en “Waarde gerichte Doelen” , echter de werkzaamheid van deze interventies op de lange termijn is niet onderzocht. Een eerste feasibility studie lijkt veelbelovend met positieve effecten naar de bruikbaarheid van deze interventies in de betrokken revalidatiecentra. Vanuit dit werkveld maar ook vanuit de patiënten kwam nadrukkelijk de vraag om deze interventies op effectiviteit te toetsen. Dit heeft geleid tot de onderzoeksvraag; “Is een additionele interventie (do it yourself en/of waarde gerichte doelen) gericht op het blijven toepassen van aangeleerde vaardigheden na een succesvol doorlopen pijn programma effectief in het bestendigen van de resultaten op de lange termijn en leidt dit tot een afname van het zorggebruik.” Het onderzoek wordt uitgevoerd in twee werkpakketten; (1) het ontwikkelen van een bruikbare app voor de ontwikkelde interventies in samenwerking met DIO Design en (2) een effectiviteit studie in de revalidatiecentra Adelante in Hoensbroek en Maastricht, Libra R&A locatie Weert en Heliomare Revalidatie in Wijk aan Zee. De doelstelling van het consortium is om de samen met zorgprofessionals, patiënten, beroepsvereniging en ontwerpers een product ter voorkoming van terugval verder te ontwikkelen en te toetsen. Na afronding van dit project zijn de op effectiviteit getoetste additionele interventies, DIY en WD, klaar om landelijk te worden uitgerold.
Centre of Expertise, onderdeel van Hanze
