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This book constitutes the proceedings of the 14th International Conference on Informatics in Schools: Situation, Evolution and Perspectives, ISSEP 2021, held in Nijmegen, The Netherlands, in November 2020. Due to COVID-19 related travelling restrictions the conference had to be switched to online format. The 12 full papers presented were carefully reviewed and selected from 29 submissions. They are organized in topical sections named: Fostering Computational Thinking, Programming Education, Advancing Computing Education, and Teachers’ Professional Development.
This book constitutes the proceedings of the 12th International Conference on Informatics in Schools: Situation, Evolution and Perspectives, ISSEP 2019, held in Larnaca, Cyprus, in November 2019. The 23 revised full papers presented were carefully reviewed and selected from 55 submissions. They are organized in topical sections named : teacher education in informatics, primary education in informatics, contemporary computer science ideas in school informatics, teaching informatics: from highschool to university levels, contests, competitions and games in informatics.
There has been exponential growth in transnational education (TNE) in the last few years as UK universities have looked to expand their markets. Recipient countries have sought short cuts to developing their higher education provision which has proved a lucrative income stream for some universities. But overseas collaborations are not without risk. Recipient countries can be concerned with external influence over curricula, quality being diluted and higher education being infected by neo-imperialism. These concerns are not without foundation. There are risks for providers too. Reputations can be damaged if academic standards are compromised. Conflicts of interest can occur between quality of provision and the pot of gold on offer. Staff can view overseas collaborations as distracting from their research and commitment to home students. Computing is a particularly popular subject for TNE, but critical thinking, analysis, independent learning, and creativity can be compromised. Preventing plagiarism is difficult. Constant changes in technology result in constant curricula revision which causes severe problems for overseas collaborations. This book focuses on TNE in the computing domain. However cross-cultural issues challenge TNE management and administration whatever the subject area. If the ever present tensions are not continuously monitored they can quickly threaten the sustainability of the collaboration. This book identifies many of the threats and some of the solutions. The readership for this book is truly global. Any international development officer in higher education considering an overseas collaboration will benefit from this book. Any academic becoming engaged in, or already involved with a TNE partnership, either as provider or recipient, will gain information and insight into the practice and issues. Researchers in TNE will discover more lines of enquiry. Students considering a course with an overseas provider or in coming to the UK to study will be better prepared thereby enabling a more fulfilling and rewarding experience. Anyone who has an interest in TNE, whether at the senior executive level, operational level, delivering programmes or as a recipient of TNE should read this book. The wealth of experience gathered here will provoke questions, prompt debate and offer solutions. It has been written by people who know the issues, bear the scars and are happy to share their knowledge. It will greatly benefit future transnational collaborations.
This book constitutes the proceedings of the Third International Conference on Technology and Innovation in Learning, Teaching and Education, TECH-EDU 2022, was held in Lisbon, Portugal, in August/September 2022. The 21 full papers and 18 short paper presented in this volume were carefully reviewed and selected from 80 submissions. The papers are organized in the following topical sections: Emergent technologies in education; Online learning and blended learning; Computer science education and STEM; Digital tools and STEM learning; ICT and critical thinking in higher education; Digital transformation in higher education; Artificial Intelligence in Education.
Educational informatics represents the convergence of key aspects of information science, computing, and education while exploiting Web-based techniques and standards. This book provides a rigorous definition of and theoretical framework for educational informatics, while relating to the human aspects of educational information systems. Web-Based Learning Through Educational Informatics: Information Science Meets Educational Computing explores the role of information seeking and retrieval in the development of information systems to support personalized and autonomous learning by introducing key concepts from information science.
This book constitutes the refereed proceedings of the 5th International Conference on Informatics in Schools: Situation, Evolution and Perspectives, ISSEP 2011, held in Bratislava, Slovakia, in October 2011. The 20 revised full papers presented were carefully reviewed and selected from 69 submissions. A broad variety of topics related to teaching informatics in schools is addressed ranging from national experience reports to paedagogical and methodological issues. The papers are organized in topical sections on informatics education - the spectrum of options, national perspectives, outreach programmes, teacher education, informatics in primary schools, advanced concepts of informatics in schools, as well as competitions and exams.
This concise yet thorough textbook presents an active-learning model for the teaching of computer science. Offering both a conceptual framework and detailed implementation guidelines, the work is designed to support a Methods of Teaching Computer Science (MTCS) course, but may be applied to the teaching of any area of computer science at any level, from elementary school to university. This text is not limited to any specific curriculum or programming language, but instead suggests various options for lesson and syllabus organization. Fully updated and revised, the third edition features more than 40 new activities, bringing the total to more than 150, together with new chapters on computational thinking, data science, and soft concepts and soft skills. This edition also introduces new conceptual frameworks for teaching such as the MERge model, and new formats for the professional development of computer science educators. Topics and features: includes an extensive set of activities, to further support the pedagogical principles outlined in each chapter; discusses educational approaches to computational thinking, how to address soft concepts and skills in a MTCS course, and the pedagogy of data science (NEW); focuses on teaching methods, lab-based teaching, and research in computer science education, as well as on problem-solving strategies; examines how to recognize and address learners’ misconceptions, and the different types of questions teachers can use to vary their teaching methods; provides coverage of assessment, teaching planning, and designing a MTCS course; reviews high school teacher preparation programs, and how prospective teachers can gain experience in teaching computer science. This easy-to-follow textbook and teaching guide will prove invaluable to computer science educators within all frameworks, including university instructors and high school teachers, as well as to instructors of computer science teacher preparation programs.
This textbook presents both a conceptual framework and detailed implementation guidelines for computer science (CS) teaching. Updated with the latest teaching approaches and trends, and expanded with new learning activities, the content of this new edition is clearly written and structured to be applicable to all levels of CS education and for any teaching organization. Features: provides 110 detailed learning activities; reviews curriculum and cross-curriculum topics in CS; explores the benefits of CS education research; describes strategies for cultivating problem-solving skills, for assessing learning processes, and for dealing with pupils’ misunderstandings; proposes active-learning-based classroom teaching methods, including lab-based teaching; discusses various types of questions that a CS instructor or trainer can use for a range of teaching situations; investigates thoroughly issues of lesson planning and course design; examines the first field teaching experiences gained by CS teachers.
This work enforces the need to take multi-disciplinary and/or inter-disciplinary approaches when solutions for e-education (or online-, e-learning) are introduced. The text is aimed at researchers and practitioners from academia, industry and government.