Children with special educational needs included in Austrian mainstream schools are provided with special educational support, which aim to create learning environments, that meet the children’s needs on an individual level. Little is known about what adjustments children with special educational needs in mainstream school classes require to promote participation in school occupations. This is the first study in Austria exploring the student-environment-fit from self-perceived children’s perspective and comparing this to teachers’ perspective by using the School Setting Interview. In this cross-sectional matched pairs study twenty-five children (mean age 12.5 ± 1.4) with special educational needs and twenty-one teachers from six Austrian secondary schools were interviewed. Participants’ ratings were analyzed descriptively and statistically with Wilcoxon-Sign Rank Test. Reported adjustments from the child and teacher perspectives were analyzed with qualitative content analysis and presented using the occupational, social and physical environmental dimensions from the Model of Human Occupation. Results indicate perceived student-environment-fit differs between school activities as well as between children and teachers. Three out of 16 school activities showed a statistically significant difference between children and teacher matched-pair analysis. Children perceive more unmet needs then teachers. Most adjustments are reported in the social environment dimension and inform practitioners what adjustments are perceived to be useful for children with Special Educational Needs and their teachers. Both children’s and teacher’s perspectives provide valuable information. Significantly, children in this study were able to identify required needs and describe adjustments. To increase participation in school occupations, children can and need to be actively included in the decision-making process.
This report was written for the municipality of Apeldoorn as a contribution to Cityloops. It consists of designing and planning tools and provides answers for the municipality of Apeldoorn to enable them to move towards a circular construction economy.
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Educational escape rooms (EERs) are increasingly used in education as learning innovations for non-digital and game-based learning (GBL) since EERs positively influence student motivation. They are common in educational fields where skills developments are vital such as STEM subjects and healthcare. However, EERs are marginally implemented in entrepreneurship education (EE) because there is a lack of evaluated design elements to guide the creation of EER in this context, which hampers their wider adoption. Therefore, in this study, we evaluated design elements for EERs in EE. We are particularly concerned with experiential EE since EERs are well suited for experiential learning. We used a research-through-design approach and created an EER based on 11 design elements derived from the literature on social cognitive theory, entrepreneurship competence, and gamification. We created and evaluated the EER in two cycles with two diverse groups of students at a university of applied sciences in the Netherlands. We contribute to the literature and practice of experiential EE by presenting evaluated design elements for EERs. We show which design elements work well and which do not. We also present a comprehensively designed EER that educational professionals can implement in their experiential EE programs.
MUSE supports the CIVITAS Community to increase its impact on urban mobility policy making and advance it to a higher level of knowledge, exchange, and sustainability.As the current Coordination and Support Action for the CIVITAS Initiative, MUSE primarily engages in support activities to boost the impact of CIVITAS Community activities on sustainable urban mobility policy. Its main objectives are to:- Act as a destination for knowledge developed by the CIVITAS Community over the past twenty years.- Expand and strengthen relationships between cities and stakeholders at all levels.- Support the enrichment of the wider urban mobility community by providing learning opportunities.Through these goals, the CIVITAS Initiative strives to support the mobility and transport goals of the European Commission, and in turn those in the European Green Deal.Breda University of Applied Sciences is the task leader of Task 7.3: Exploitation of the Mobility Educational Network and Task 7.4: Mobility Powered by Youth Facilitation.
A-das-PK; een APK-straat voor rijhulpsystemen Uit recent onderzoek en vragen vanuit de autobranche blijkt een duidelijke behoefte naar goed onderhoud, reparatie en borging van de werking van Advanced Driver Assistance Systems (ADAS), vergelijkbaar met de reguliere APK. Een APK voor ADAS bestaat nog niet, maar de branche wil hier wel op te anticiperen en haar clientèle veilig laten rijden met de rijhulpsystemen. In 2022 worden 30 ADAS’s verplicht en zal de werking van deze systemen ook gedurende de levensduur van de auto gegarandeerd moeten worden. Disfunctioneren van ADAS, zowel in false positives als false negatives kan leiden tot gevaarlijke situaties door onverwacht rijgedrag van het voertuig. Zo kan onverwacht remmen door detectie van een niet bestaand object of op basis van verkeersborden op parallelwegen een kettingbotsing veroorzaken. Om te kijken welke gevolgen een APK heeft voor de autobranche wil A-das-PK voor autobedrijven kijken naar de benodigde apparatuur, opleiding en hard- en software voor een goed werkende APK-straat voor ADAS’s, zodat de kansrijke elementen in een vervolgonderzoek uitgewerkt kunnen worden.
Aeres University of Applied Sciences has placed internationalisation as a key driver in its overall strategy. By prioritising the internationalisation of education and educational consultancy the university has created solid opportunities for students, lecturers, and partners at regional, national, and international levels. Currently, more strategic development on internationalisation in applied research at Aeres is needed. There is an opportunity to utilise highly proficient researchers, state-of-the-art facilities, and an impressive national research portfolio, and for this, there is a need to develop international research agenda, a key priority for AeresResearch4EU. To address this need, Aeres University of Applied Sciences aims to strengthen its internationalisation efforts with its research activities, opening the door to many opportunities, and most importantly, creating an international research agenda spanning the university's three locations. The main objectives of AeresResearch4EU are to analyse the existing research strategy and professorships and develop them towards a global research agenda for the European Union. By focusing on international research projects, Aeres can further enhance its reputation as a leading institution for applied research in agriculture, food, environment, and green technologies. AeresResearch4EU aims to create new partnerships and collaborations with researchers and institutions across Europe, allowing Aeres to contribute to developing innovative and sustainable solutions to global challenges. With its strong commitment to internationalisation and its focus on applied research, Aeres University of Applied Sciences is poised to become an essential player in the European research landscape.
