Responsive public spaces use interactive technologies to adapt to users and situations. This enhances the quality of the space as a public realm. However, the application of responsive technologies in spatial design is still to be explored. What exactly are the options for incorporating responsive technologies in spatial designs to improve the quality of public spaces? The book Responsive Public Spaces explores and disentangles this new assignment for designers, and presents inspiring examples. A consortium of spatial designers, interaction designers and local stakeholders, headed by the Chair of Spatial Urban Transformation of Amsterdam University of Applied Sciences, carried out a two-year practice-based study of responsive public spaces. This book draws on those insights to provide a practical approach and a roadmap for the new design process for responsive public spaces.The study results are of signi¬icance for various professional fields. The book is intended for clients and stakeholders involved in planning and design of public spaces, spatial designers, interaction designers and students.
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To meet society’s changing demands, the responsive development of curricula is vital, and curriculum developers need to increasingly foresee and incorporate changes into their curricula in a timely manner. However, responsive curriculum development is a complex problem for curriculum developers in vocational and (higher) professional education, and comprehensive research on this theme is scarce. This study focused on responsive curriculum development processes in a Dutch higher professional education institution (N = 77 experts). A group concept mapping study into the supportive factors of this process revealed six factors: (1) a vision of education and learning, (2) a continuous and iterative development process, (3) teamwork, (4) involving stakeholders, (5) a conducive environment and conditions, and (6) agency. Participating experts highlighted the importance of ensuring that equal attention is devoted to each of these factors. However, the results also reveal the challenges that curriculum developers face. To deal with these, a framework of factors is suggested to facilitate curriculum conversations in which developers can negotiate – and give meaning to – the desired change in the curriculum context.
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Hoe kan de verblijfskwaliteit en veiligheidsperceptie van de publieke ruimte versterkt worden door de toepassing van “interactieve objecten”? (objecten die met beeld, licht, geluid en sensoren real time reageren op de gebruikers en de ruimte daarop afstemmen). De ontwikkeling van deze zogenaamde responsieve ruimte staat nog in de kinderschoenen maar is beloftevol vanwege de meerwaarde voor de leefbaarheid en het onderscheidend vermogen van de plek en de bedrijven. In Co-ReUs worden drie verschillende mkb groepen samengebracht: stedenbouwbureaus, creatieve conceptontwikkelaars en lokale ondernemers. We gebruiken de ArenA-Boulevard als proeftuin: een als ongezellig ervaren ruimte (lage verblijfskwaliteit en slechte veiligheidsperceptie). De mkb-ers lossen hiermee hun eigen praktijkproblemen op: Stedenbouwbureaus houden zich bezig met het ontwerp van de publieke ruimte. Zij merken dat hun instrumentarium (herontwerp, herbestrating etc.) te kapitaalintensief en te weinig flexibel is om de verblijfskwaliteit en veiligheidsperceptie op dit soort plekken op te lossen. De bureaus hebben behoefte aan een lichter, gerichter en responsiever instrumentarium. Ze hebben echter beperkte (technologische) kennis hoe interactieve objecten precies een bijdrage kunnen leveren. Creatieve conceptontwikkelaars hebben een ander probleem: zij hebben wél de beschikking over interactieve objecten (geluid, beeld, licht, sensoren) maar die zijn vooral kunstzinnig en evenementiëel. De objecten zijn stuk voor stuk niet ontwikkeld vanuit een stedenbouwkundige opgave waardoor ze hiervoor geen panklare oplossing vormen. Lokale mkb-ers hebben ook een probleem: zij weten niet goed hoe zij op een gecoördineerde manier invloed kunnen uitoefenen op de activering van de publieke ruimte. Project Co-ReUs: 1) analyseert hoe de ruimte wordt gebruikt (nulmeting en Programma van Eisen voor de inzet van interactieve objecten; 2) ontwikkelt ruimtelijk-interactieve interventies in co-creatie met de drie mkb groepen. 3) deze worden op het plein geplaatst en nametingen brengen de effecten in beeld. Het resultaat is een actiegerichte Handleiding met Roadmap voor de ontwikkeling van responsieve publieke ruimtes.
CRISPR/Cas genome engineering unleashed a scientific revolution, but entails socio-ethical dilemmas as genetic changes might affect evolution and objections exist against genetically modified organisms. CRISPR-mediated epigenetic editing offers an alternative to reprogram gene functioning long-term, without changing the genetic sequence. Although preclinical studies indicate effective gene expression modulation, long-term effects are unpredictable. This limited understanding of epigenetics and transcription dynamics hampers straightforward applications and prevents full exploitation of epigenetic editing in biotechnological and health/medical applications.Epi-Guide-Edit will analyse existing and newly-generated screening data to predict long-term responsiveness to epigenetic editing (cancer cells, plant protoplasts). Robust rules to achieve long-term epigenetic reprogramming will be distilled based on i) responsiveness to various epigenetic effector domains targeting selected genes, ii) (epi)genetic/chromatin composition before/after editing, and iii) transcription dynamics. Sustained reprogramming will be examined in complex systems (2/3D fibroblast/immune/cancer co-cultures; tomato plants), providing insights for improving tumor/immune responses, skin care or crop breeding. The iterative optimisations of Epi-Guide-Edit rules to non-genetically reprogram eventually any gene of interest will enable exploitation of gene regulation in diverse biological models addressing major societal challenges.The optimally balanced consortium of (applied) universities, ethical and industrial experts facilitates timely socioeconomic impact. Specifically, the developed knowledge/tools will be shared with a wide-spectrum of students/teachers ensuring training of next-generation professionals. Epi-Guide-Edit will thus result in widely applicable effective epigenetic editing tools, whilst training next-generation scientists, and guiding public acceptance.
Manual labour is an important cornerstone in manufacturing and considering human factors and ergonomics is a crucial field of action from both social and economic perspective. Diverse approaches are available in research and practice, ranging from guidelines, ergonomic assessment sheets over to digitally supported workplace design or hardware oriented support technologies like exoskeletons. However, in the end those technologies, methods and tools put the working task in focus and just aim to make manufacturing “less bad” with reducing ergonomic loads as much as possible. The proposed project “Human Centered Smart Factories: design for wellbeing for future manufacturing” wants to overcome this conventional paradigm and considers a more proactive and future oriented perspective. The underlying vision of the project is a workplace design for wellbeing that makes labor intensive manufacturing not just less bad but aims to provide positive contributions to physiological and mental health of workers. This shall be achieved through a human centered technology approach and utilizing advanced opportunities of smart industry technologies and methods within a cyber physical system setup. Finally, the goal is to develop smart, shape-changing workstations that self-adapt to the unique and personal, physical and cognitive needs of a worker. The workstations are responsive, they interact in real time, and promote dynamic activities and varying physical exertion through understanding the context of work. Consequently, the project follows a clear interdisciplinary approach and brings together disciplines like production engineering, human interaction design, creative design techniques and social impact assessment. Developments take place in an industrial scale test bed at the University of Twente but also within an industrial manufacturing factory. Through the human centered design of adaptive workplaces, the project contributes to a more inclusive and healthier society. This has also positive effects from both national (e.g. relieve of health system) as well as individual company perspective (e.g. less costs due to worker illness, higher motivation and productivity). Even more, the proposal offers new business opportunities through selling products and/or services related to the developed approach. To tap those potentials, an appropriate utilization of the results is a key concern . The involved manufacturing company van Raam will be the prototypical implementation partner and serve as critical proof of concept partner. Given their openness, connections and broad range of processes they are also an ideal role model for further manufacturing companies. ErgoS and Ergo Design are involved as methodological/technological partners that deal with industrial engineering and ergonomic design of workplace on a daily base. Thus, they are crucial to critically reflect wider applicability and innovativeness of the developed solutions. Both companies also serve as multiplicator while utilizing promising technologies and methods in their work. Universities and universities of applied sciences utilize results through scientific publications and as base for further research. They also ensure the transfer to education as an important leverage to inspire and train future engineers towards wellbeing design of workplaces.
