One of the key ways to tackle staff shortages is education, which requires collaboration between organisations. As internships are crucial in vocational training, educational and internship institutes need to agree on the terms of internships. The aim of this study is to answer the research question: What would be a successful way of arranging networks to create internships in the healthcare sector? Initial conditions, governance and reciprocal behaviour are key factors in the various stages of collaboration and are likely to leave their mark on the outcome. A comparison of networks in four regions in the Netherlands provides insight into how such networks are organised. We conducted structured interviews with key figures and analysed documents and open-source data. We conclude that regions differ in how they organise healthcare internships; some are very network-oriented, others to a lesser degree. Although all regions manage to arrange one internship per student, network-oriented regions seem to create better matches.
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Since 2000, all Dutch Universities of Professional Education are confronted with three major renewals. The first was the European agreement to implement the Bachelor-Master system in Higher Education. The second was the strong tendence to renew eduction towards Competence Based Education. The third renewal came from the decision of the ministery of Education to contract lectures (lectoren) and research networks (kenniskringen) to improve research competences among students. Basic idea behind the latest renewal was that if students from Universities of Professional Education bring in more knowledge in companies, during and after their study, this will stimulate the innovative power of Dutch small and medium enterprices (SME’s). Educational developers have been very bussy with these renewals. Under the cloak of national assurance guidelines and external panels of inspection many educational developers automatically tended to use the instrumental paradigm for many design contexts. In accordance with the research of Gustafson (1993) and Richey (1993) we raised questions about the relevance of the instrumental paradigm for educational design contexts, because often the means-end thinking of the instrumental approach have seemed to be out of place. This research project by Lappia, De Boer & Van Rennes took place in 2006 at INHOLLAND university of professional education in the western part of The Netherlands with four pilots at School of Technology, Social Work, Education and Economics. The researchers started from the assumption that improving competence-based internships could not been based on an instrumental paradigma, because of the lack of absolute standards and the need to support deliberation among stakeholders. The Design Science Approach of Van Aken (2004) and Andriessen (2004) was been used to reveal field-tested and grounded technological rules as design specifications for improvement tools. Beside that the research project used the communicative paradigm (Visscher-Voerman & Gustafson, 2004) to reach consensus among the practitioners, who accompanion students during their internships in organisations in order to achieve a growth of competences in the choosen working field. Participants in the research project were employees of the School of Education, The School of Technology and the School of Economics, the department of Education, Quality, Research and development (OKR). Conditions for participating in the project were that the Schools recognized the problems with implementing Competence Based Internship and the School had to set the employees whe participated in the project free for half a day during the project. The Schools as stakeholders in the project were primary interested in solution of their practical problem (practical stream). The department of Education, Quality, Research and development was interested in solution of the pratical problem for dissemination reasons, but would also learn new strategies for implementation (knowledge stream). Therefore was choosen to follow the Design Science Research Approach.
To be able to ‘survive’ in a more and more globalising world, students of universities and universities of applied sciences must attain international competencies, in this study defined as respectively general personal, social competencies, intercultural competencies, a command of foreign languages and international academic and professional competencies. International competencies can be attained in different ways by students: internally (via foreign teachers and/or students) and/or externally (via internships and/or exchanges). The external attainment of competencies is far more successful when students are well prepared and when they receive proper supervision, both during and after their stay abroad. If this is not the case, students often tend to develop at a personal, social and (inter)cultural level, but significantly less at an academic and professional level (Stronkhorst, 2005). These students are also often unable to recognize and express which knowledge and skills they attained during their stay abroad (Orahood et al., 2004; CERI, 2008; Deardorff, 2009). With the preceding information as a starting point, the Social Work degree programme of Windesheim University of Applied Sciences in Zwolle started the minor ‘Social Work in Africa & Asia’ in the beginning of 2014. Students who participate firstly pass through a a six-week preparatory theoretical programma, followed by a three-month internship in Uganda or Vietnam. The minor concludes with a two-week postmortem programme. The practical component of the minor involves Eye4Africa, a Dutch internship supervision agency for internships in Uganda, Kenya and Vietnam. Eye4Africa arranges the internships, prepares the students for their stay abroad, both in the Netherlands and abroad, and then offers them support, coaching and intervision meetings. At the initiative of and in collaboration with Eye4Africa The Hague University of Applied Sciences carried out a qualitative study amongst eight female students of the Social Work degree programme of Windesheim University of Applied Sciences who followed the minor ‘Social Work in Africa & Asia’ during the academic year 2014-2015. The following was key to the research conducted: the question of the extent to which preparation for the Social Work in Africa & Asia minor at Windesheim University of Applied Sciences and the supervision that the Eye4Africa internship agency offers fourth-year Social Work students during their internships in Uganda in the autumn of 2014 had a positive impact on the attainment and further development of international competencies. The results have shown that the students found it very easy to recognise and express the knowledge and skills they gained during their internships. Secondly, the students mentioned clear professional, intercultural and personal, social growth. No growth or development in relation to academic competencies was observed in this study. However, this is not unusual, as the students were doing internships. Academic competencies are particularly attained when studying abroad, while professional competencies are particularly attained during internships (Hoven & Walenkamp, 2013; 2015). The main conclusion of this study is that the preparation and the supervision by Windesheim University of Applied Sciences and Eye4Africa within the framework of the minor ‘Social Work in Africa & Asia’ has aided students with regard to growth and the (further) development of international competencies. Some important short comments are that a relatively small, very one-sided sample has been interviewed and that there was no control group.
The Dutch floriculture is globally leading, and its products, knowledge and skills are important export products. New challenges in the European research agenda include sustainable use of raw materials such as fertilizer, water and energy, and limiting the use of pesticides. Greenhouse growers however have little control over crop growth conditions in the greenhouse at individual plant level. The purpose of this project, ‘HiPerGreen’, is to provide greenhouse owners with new methods to monitor the crop growth conditions in their greenhouse at plant level, compare the measured growth conditions and the measured growth with expected conditions and expected growth, to point out areas with deviations, recommend counter-measures and ultimately to increase their crop yield. The main research question is: How can we gather, process and present greenhouse crop growth parameters over large scale greenhouses in an economical way and ultimately improve crop yield? To provide an answer to this question, a team of university researchers and companies will cooperate in this applied research project to cover several different fields of expertise The application target is floriculture: the production of ornamental pot plants and cut flowers. Participating companies are engaged in the cultivation of pot plans, flowers and suppliers of greenhouse technology. Most of the parties fall in the SME (MKB) category, in line with the RAAK MKB objectives.Finally, the Demokwekerij and Hortipoint (the publisher of the international newsletter on floriculture) are closely involved. The project will develop new knowledge for a smart and rugged data infrastructure for growth monitoring and growth modeling in the greenhouse. In total the project will involve approximately 12 (teacher) researchers from the universities and about 60 students, who will work in the form of internships and undergraduate studies of interesting questions directly from the participating companies.
Innovative lab situated in de town of Winschoten, active for the Ems Dollard-region, working with partners from the quadruple helix, amongst others with students and researchers from Hanze University of Applied Sciences, municipality of Oldambt and German partners on solving regional and local issues.Regional knowledge agenda; stimulating students to participate in internships and research projects across the Dutch-German border; cooperation between 4-helix partners in de region.Innovative lab situated in de town of Winschoten, active for the Ems Dollard-region, working with partners from the quadruple helix, amongst others with students and researchers from Hanze University of Applied Sciences, municipality of Oldambt and German partners on solving regional and local issues.
Human kind has a major impact on the state of life on Earth, mainly caused by habitat destruction, fragmentation and pollution related to agricultural land use and industrialization. Biodiversity is dominated by insects (~50%). Insects are vital for ecosystems through ecosystem engineering and controlling properties, such as soil formation and nutrient cycling, pollination, and in food webs as prey or controlling predator or parasite. Reducing insect diversity reduces resilience of ecosystems and increases risks of non-performance in soil fertility, pollination and pest suppression. Insects are under threat. Worldwide 41 % of insect species are in decline, 33% species threatened with extinction, and a co-occurring insect biomass loss of 2.5% per year. In Germany, insect biomass in natural areas surrounded by agriculture was reduced by 76% in 27 years. Nature inclusive agriculture and agri-environmental schemes aim to mitigate these kinds of effects. Protection measures need success indicators. Insects are excellent for biodiversity assessments, even with small landscape adaptations. Measuring insect biodiversity however is not easy. We aim to use new automated recognition techniques by machine learning with neural networks, to produce algorithms for fast and insightful insect diversity indexes. Biodiversity can be measured by indicative species (groups). We use three groups: 1) Carabid beetles (are top predators); 2) Moths (relation with host plants); 3) Flying insects (multiple functions in ecosystems, e.g. parasitism). The project wants to design user-friendly farmer/citizen science biodiversity measurements with machine learning, and use these in comparative research in 3 real life cases as proof of concept: 1) effects of agriculture on insects in hedgerows, 2) effects of different commercial crop production systems on insects, 3) effects of flower richness in crops and grassland on insects, all measured with natural reference situations
