The integration of research activities in universities of applied sciences (UASs) has led to the transformation of these universities into organisations with two primary processes: research and education. Although many believe in the benefits of combining research and education in one organisation, which is referred to as synergy in this study, research–education synergies have rarely been empirically investigated, particularly in the UAS context. Thus, this research investigates the intended synergy between the research and education of UASs by conducting a document analysis of their university-wide strategic policy. The findings show that UASs aim for synergies among people, UAS organisations and outside UAS organisations, with a focus on education-oriented synergies. This study provides an initial understanding of the strategic aims of UASs considering research–education synergy. The findings provide direction and a framework for future research and form a base for making explicit strategic choices for research–education connections in universities.
To ensure the proper education of “future proof” professionals, it is important that higher education institutions make strong connections between research and teaching. The combination of the institutional logics of research and teaching within the Universities of Applied Sciences (UASs) suggests that UASs should strive for synergy between these two logics. Before attempting to improve the synergy, we investigate UASs’ current visions on connecting research and teaching and the subsequent synergistic effects. A grounded coding analysis of university-wide policy documents of six UASs in the Netherlands suggests that universities want to achieve synergistic effects on the level of the student, the professional, education, research, organization and professional practice. To achieve these synergistic effects the universities show a variety of research-teaching connections. The findings have implications for both local and national policy makers.
The world has changed profoundly since the publication of the influential book Technopoles of the World. As policy-makers and practitioners attempt to harness science, technology and innovation to create dynamic and vibrant cities many wonder how relevant Manuel Castells and Peter Hall's messages are today.
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The IMPULS-2020 project DIGIREAL (BUas, 2021) aims to significantly strengthen BUAS’ Research and Development (R&D) on Digital Realities for the benefit of innovation in our sectoral industries. The project will furthermore help BUas to position itself in the emerging innovation ecosystems on Human Interaction, AI and Interactive Technologies. The pandemic has had a tremendous negative impact on BUas industrial sectors of research: Tourism, Leisure and Events, Hospitality and Facility, Built Environment and Logistics. Our partner industries are in great need of innovative responses to the crises. Data, AI combined with Interactive and Immersive Technologies (Games, VR/AR) can provide a partial solution, in line with the key-enabling technologies of the Smart Industry agenda. DIGIREAL builds upon our well-established expertise and capacity in entertainment and serious games and digital media (VR/AR). It furthermore strengthens our initial plans to venture into Data and Applied AI. Digital Realities offer great opportunities for sectoral industry research and innovation, such as experience measurement in Leisure and Hospitality, data-driven decision-making for (sustainable) tourism, geo-data simulations for Logistics and Digital Twins for Spatial Planning. Although BUas already has successful R&D projects in these areas, the synergy can and should significantly be improved. We propose a coherent one-year Impuls funded package to develop (in 2021): 1. A multi-year R&D program on Digital Realities, that leads to, 2. Strategic R&D proposals, in particular a SPRONG/sleuteltechnologie proposal; 3. Partnerships in the regional and national innovation ecosystem, in particular Mind Labs and Data Development Lab (DDL); 4. A shared Digital Realities Lab infrastructure, in particular hardware/software/peopleware for Augmented and Mixed Reality; 5. Leadership, support and operational capacity to achieve and support the above. The proposal presents a work program and management structure, with external partners in an advisory role.
Doel is een slim werkend besturingsmechanisme voor multi-commodity energiesystemen (MCES) experimenteel toe te passen in de gebouwde omgeving, de industrie, en in hun onderlinge samenhang. Het mechanisme wordt ontworpen en gerealiseerd. De werking wordt in 2 praktijksituaties getest. Doel van het besturingsmechanisme is borging van de kwaliteiten van het energiesysteem (robuustheid, betrouwbaarheid, betaalbaarheid, veiligheid, acceptatie, efficiency en functioneren in het wenselijke regime) terwijl verschillende events op de proef wordt gesteld.
