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25 år av skolreformer : Vittnesseminarium om skolans kommunalisering och friskolereformen
- 2017. - 1
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Samlingsverk (redaktörskap) (övrigt vetenskapligt/konstnärligt)abstract
- I debatten om den svenska skolans kris lyfts ofta betydelsen av de omfattande reformer som genomfördes under några år kring 1990 fram. Det gäller framför allt kommunaliseringen, införandet av skolpeng och det fria skolvalet. Hur gick besluten till? Vilka var de centrala aktörerna? Vad var syftet med reformerna?I juli 2014 bjöd Samtidshistoriska institutet vid Södertörns högskola tillsammans med Lärarnas Riksförbund in några aktörer som på olika sätt varit aktiva under 1990-talets skolreformer till ett vittnesseminarium. Utgångspunkten var att de skulle ge sin minnesbild av skeendet, vilken roll de själva spelat, samt hur de nu, cirka 25 år senare såg på resultatet.Medverkande: Lars Leijonborg (FP), f.d. utbildningsminister och partiledare, Christer Wretborn f.d. ambassadör, departementsråd och central tjänsteman vid kommunaliseringen 1989, Ann-Cathrine Haglund (M), f.d. landshövding, ordförande Riksdagens utbildningsutskott 1991–1993, Peje Emilsson, grundare av och ordförande för Kunskapsskolan och Bo Jansson, förbundsordförande, Lärarnas riksförbund.
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3D digital modelling in visual arts education
- 2024
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Samlingsverk (redaktörskap) (övrigt vetenskapligt/konstnärligt)abstract
- The following 3D Digital Modelling in Visual Arts Education forms part of the Tilde seriesand is based on collaboration in a project involving Aalborg University and College University Copenhagen (Denmark), the University of Gothenburg and Umeå University (Sweden).The project’s aim was to explore the learning potential held by 3D sculpting for art teachersby identifying new image-making processes in modelling and sculpting. Another aim wasto integrate the project’s outcome in didactics and teaching activities for teacher educatorsin visual arts connected to the subject area.The project was fnanced by EDDA Norden during 2021 and several seminars werearranged to present research in the subject area visual arts, 3D modelling, and use of technology. The results may be of particular interest to a wider audience in the research felds ofvisual arts education, multimodal learning designs, and teacher education. The publicationis based on presentations made at Aalborg University in Copenhagen during the autumn of2021 and at a symposium called 3D-sculpting: A Nordic Higher Education CollaborationProject at the NERA conference held in Oslo in the spring of 2023.
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3D Lung Models for Regenerating Lung Tissue
- 2022
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Samlingsverk (redaktörskap) (refereegranskat)abstract
- 3D Lung Models for Regenerating Lung Tissue is a comprehensive summary on the current state of art 3D lung models and novel techniques that can be used to regenerate lung tissue. Written by experts in the field, readers can expect to learn more about 3D lung models, novel techniques including bioprinting and advanced imaging techniques, as well as important knowledge about the complexity of the lung and its extracellular matrix composition.Structured into 15 different chapters, the book spans from the original 2D cell culture model on plastic, to advanced 3D lung models such as using human extracellular matrix protein. In addition, the last chapters cover new techniques including 3D printing, bioprinting, and artificial intelligence that can be used to drive the field forward and some future perspectives. This highly topical book with chapters on everything from the complexity of the lung and its microenvironment to cutting-edge 3D lung models, represents an exciting body of work that can be used by researchers during study design, grant writing, as teaching material, or to stay updated with the progression of the field.Key Features A comprehensive summary of advanced 3D lung models written by the experts in the respiratory field Explore novel techniques that can be used to evaluate and improve 3D lung models, including techniques such as 3D printing, bioprinting, and artificial intelligence Explains what extracellular matrix is, the complexity of the lung microenvironment, and why this knowledge is important for creating a functional bioartificial lung
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