Teacher education is in a state of change. There is a new focus on professional competence, including the competence for further development and learning, conceived of as workplace learning. Teacher shortages put pressure on the development of alternative routes to teaching. The arrival of prospective teachers with experience and qualifications in other areas than education requires adaptive programs, with a greater emphasis on professional learning in school. It is argued that promoting professional workplace learning asks for a conceptual clarification, based on new theory of learning and concepts of professionalism. A definition of professional learning is proposed. Some examples of new practice in teacher education are discussed.
This paper reports on the EU-project 'Professionally Networking Education and Teacher Training' (PRONETT). The key objective of the PRONETT project (2001-2004) is to develop a regional and cross national learning community of pre- and in-service teachers and teacher educators supported by webbased resources and tools to collaborate and to construct shared understandings of teaching and learning in a networked classroom. The reasons for the initiative and the design principles of the PRONETT portal offering a virtual infrastructure for the collaboration of participating students and teachers at www.PRONETT.org are presented. The initial pilots carried out by the project partners are described, highlighting the co-ordinating partners activities targeted at contributing to the local realisation of ICT-rich, competence based Teacher Education Provision. Results are reported of the evaluation and implementation efforts aimed at validating the original portal design and collecting information to inspire further project development and implementation strategies. We conclude by summarising the lessons learned and providing recommendations for improved and extended use and further dissemination of the project results and facilities.
In this chapter, we discuss the education of secondary school mathematics teachers in the Netherlands. There are different routes for qualifying as a secondary school mathematics teacher. These routes target different student teacher populations, ranging from those who have just graduated from high school to those who have already pursued a career outside education or working teachers who want to qualify for teaching in higher grades. After discussing the complex structure this leads to, we focus on the aspects that these different routes have in common. We point out typical characteristics of Dutch school mathematics and discuss the aims and challenges in teacher education that result from this. We give examples of different approaches used in Dutch teacher education, which we link to a particular model for designing vocational and professional learning environments.We end the chapter with a reflection on the current situation.
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Meaningful applications in education, healthcare and media. The first spearhead concerns the use of virtual humans (AI-driven, digital people) in various sectors of society such as education, healthcare and media. The shortages of labour affect all sectors and the use of AI and virtual humans can contribute to solutions. Think of a virtual 'buddy' for lonely elderly people, a virtual teacher for education and training of digital coaches and assistants. But also of serious games that measure or influence behaviour and digital twins (digital copies of objects, systems or plans) for better decision-making. The second pillar of the project focuses on the further growth of the region as an innovation district. To this end, collaborations between knowledge institutions, organisations and companies established in the Spoorzone are stimulated. The result is that (young) talent is committed to the region; also one of the objectives of the Regio Deal Midden-Brabant.Societal issueCombating a digital divide so that the (digital) society remains accessible and fair for everyone - even if you are not very technically minded - is also a spearhead. Benefit for societyBy developing the innovation district for society, we create a magnet function for:Socially involved experts (knowledge institutions), companies, social organizations, citizens and investors. Students/young talent with innovative power who are challenged to new solutions and entrepreneurship. Companies that want to bring new solutions to the market, that invest in R&D and want to establish themselves close to talent;o Attractive jobs in the companies mentioned so that young talent commits to the region and can “work for the best brands” there.In addition to structural reinforcement by the innovation district, the technology of virtual humans is being researched in the practice of health, care, welfare, education and media. The concrete projects in this proposal are already achieving initial results in this area; applications that meet social needs or that provide social solutions.
