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Policy makers around the world recognise the importance of developing young people's 21st century skills like problem solving, creative thinking, self-regulation and collaboration. Many countries also include these skills as part of the intended learning outcomes of their education systems. To shift intention into practice, educational assessments need to better measure what matters. Innovative assessments are needed that combine conceptual, technological and methodological advances in educational measurement. This report explores new approaches to measuring complex skills through a practical and applied assessment design lens, bringing together perspectives from leading experts to consider what we can learn from the learning sciences to define more authentic assessment experiences and expand the range of skills we are able to measure in both disciplinary and cross-disciplinary contexts of practice. The report also examines how technology can expand our possibilities for innovation, including the creation of more interactive and immersive problems and the generation of meaningful sources of potential evidence about students' proficiency. Finally, the report explores how we can make sense of the rich data captured in interactive digital environments using new analytical approaches, and how we can ensure the valid interpretation and use of results from innovative assessments.
Policy makers around the world recognise the importance of developing young people’s 21st century skills like problem solving, creative thinking, self-regulation and collaboration. Many countries also include these skills as part of the intended learning outcomes of their education systems.
Policy makers around the world recognise the importance of developing young people's 21st century skills like problem solving, creative thinking, self-regulation and collaboration. Many countries also include these skills as part of the intended learning outcomes of their education systems. To shift intention into practice, educational assessments need to better measure what matters. Innovative assessments are needed that combine conceptual, technological and methodological advances in educational measurement. This report explores new approaches to measuring complex skills through a practical and applied assessment design lens, bringing together perspectives from leading experts to consider what we can learn from the learning sciences to define more authentic assessment experiences and expand the range of skills we are able to measure in both disciplinary and cross-disciplinary contexts of practice. The report also examines how technology can expand our possibilities for innovation, including the creation of more interactive and immersive problems and the generation of meaningful sources of potential evidence about students' proficiency. Finally, the report explores how we can make sense of the rich data captured in interactive digital environments using new analytical approaches, and how we can ensure the valid interpretation and use of results from innovative assessments.
In the age of rapid technological advancements, the integration of Artificial Intelligence (AI), machine learning (ML), and large language models (LLMs) in Science, Technology, Engineering, and Mathematics (STEM) education has emerged as a transformative force, reshaping pedagogical approaches and assessment methodologies. Uses of AI in STEM Education, comprising 25 chapters, delves deep into the multifaceted realm of AI-driven STEM education. It begins by exploring the challenges and opportunities of AI-based STEM education, emphasizing the intricate balance between human tasks and technological tools. As the chapters unfold, readers learn about innovative AI applications, from automated scoring systems in biology, chemistry, physics, mathematics, and engineering to intelligent tutors and adaptive learning. The book also touches upon the nuances of AI in supporting diverse learners, including students with learning disabilities, and the ethical considerations surrounding AI's growing influence in educational settings. It showcases the transformative potential of AI in reshaping STEM education, emphasizing the need for adaptive pedagogical strategies that cater to diverse learning needs in an AI-centric world. The chapters further delve into the practical applications of AI, from scoring teacher observations and analyzing classroom videos using neural networks to the broader implications of AI for STEM assessment practices. Concluding with reflections on the new paradigm of AI-based STEM education, this book serves as a comprehensive guide for educators, researchers, and policymakers, offering insights into the future of STEM education in an AI-driven world.
Digital Education Outlook 2023 provides a comparative, thematic analysis of how countries shape or could shape their digital ecosystem.
In today's rapidly evolving digital landscape, extended reality (XR) technologies have emerged as transformative tools that blur the boundaries between the physical and digital worlds. However, with this innovation comes a host of complex challenges. From ethical considerations in virtual reality research to legal and regulatory hurdles in extended reality, navigating this dynamic terrain requires a deep understanding of technology and human behavior. The lack of comprehensive resources that bridge these disciplines poses a significant barrier to those seeking to harness the full potential of immersive technologies. Multidisciplinary Applications of Extended Reality for Human Experience addresses this critical gap by offering a multidisciplinary exploration of XR's impact on society. Through expert contributions from diverse fields, including psychology, sociology, design, and culture, this book provides a comprehensive understanding of how XR technologies are reshaping human perceptions and interactions. It serves as a foundational text for academics, researchers, and industry professionals seeking to navigate the complexities of immersive technologies and their profound implications for human life.
The OECD Programme for International Student Assessment (PISA) examines what students around the world know and can do. This volume – Volume III, Creative Minds, Creative Schools – is one of five volumes presenting the results of the eighth round of the PISA assessment. For the first time, in 2022, PISA assessed students’ capacity to engage in creative thinking in 64 countries and economies, defined as students’ capacity to produce original and diverse ideas. This volume describes student performance in creative thinking in different contexts and how creative thinking performance and attitudes vary across and within countries and economies. It examines differences in performance by student characteristics, including gender and socio-economic status, as well as school-characteristics. The volume also offers an insight into school leader and teacher attitudes towards creative thinking, how opportunities for students to engage in creative thinking vary across schools, and how these factors are associated with student outcomes.
OECD’s Innovation Strategy calls upon all sectors in the economy and society to innovate in order to foster productivity, growth and well-being. Education systems are critically important for innovation through the development of skills that nurture new ideas and technologies.
Throughout higher education assessment is changing, driven by increased class size, changing curricula and the need to support students better. At the same time assessment regulations and external quality assurance demands are constraining assessment options, driven by worries about standards, reliability and plagiarism. Innovative Assessment in Higher Education explores the difficulty of changing assessment in sometimes unhelpful contexts. Topics discussed include: problems with traditional assessment methods rationales behind different kinds of innovation in assessment complex assessment contexts in which teachers attempt to innovate innovation in assessment within a range of academic settings theoretical and empirical support for innovations within higher education. More than a ‘how to do it’ manual, this book offers a unique mix of useful pragmatism and scholarship. A vital resource for higher education teachers and their educational advisors, it provides a fundamental analysis of the role and purpose of assessment and how change can be managed without compromising standards.
Contextualising why assessment is still the single most important factor affecting student learning in higher education, this second edition of Innovative Assessment in Higher Education: A Handbook for Academic Practitioners offers a critical discourse about the value of assessment for learning alongside practical suggestions about how to enhance the student experience of assessment and feedback. With 17 new chapters this edition: contextualises assessment within the current higher education landscape; explores how student, parent and government expectations impact on assessment design; presents case studies on how to develop, incorporate and assess employability skills; reviews how technology and social media can be used to enhance assessment and feedback; provides examples and critical review of the use and development of feedback practices and how to assess professional, creative and performance-based subjects; offers guidance on how to develop assessment that is inclusive and enables all students to advance their potential. Bridging the gap between theory and the practical elements of assessment, Innovative Assessment in Higher Education: A Handbook for Academic Practitioners is an essential resource for busy academics looking to make a tangible difference to their academic practice and their students’ learning. This practical and accessible guide will aid both new and more experienced practitioners looking to learn more about how and why assessment in higher education can make such a difference to student learning.