Facilitating diagnostic competences is an important objective of higher education for many professions. This meta-analysis of 35 empirical studies builds on a conceptual framework and investigates the role of problem-solving, scaffolding, and context to foster diagnostic competences in learners with lower and higher professional knowledge bases. A moderator analysis investigates which type of scaffolding is effective for different levels of learners' knowledge bases, as well as the role of the diagnostic context. Instructional support has a moderate positive effect (g = .39; CI [.22; .56]; p = .001). Diagnostic competences are facilitated effectively through problem-solving independent of the learners' knowledge base. Scaffolding types providing high levels of guidance are more effective for less advanced learners, whereas scaffolding types relying on high levels of self-regulation are more effective for advanced learners.
The learning sciences, as an academic community investigating human learning, emerged more than 30 years ago. Since then, graduate learning sciences programs have been established worldwide. Little is currently known, however, about their disciplinary backgrounds and the topics and research methods they address. In this document analysis of the websites of 75 international graduate learning sciences programs, we examine central concepts and research methods across institutions, compare the programs, and assess the homogeneity of different subgroups. Results reveal that the concepts addressed most frequently were real-world learning in formal and informal contexts, designing learning environments, cognition and metacognition, and using technology to support learning. Among research methods, design-based research (DBR), discourse and dialog analyses, and basic statistics stand out. Results show substantial differences between programs, yet programs focusing on DBR show the greatest similarity regarding the other concepts and methods they teach. Interpreting the similarity of the graduate programs using a community of practice perspective, there is a set of relatively coherent programs at the core of the learning sciences, pointing to the emergence of a discipline, and a variety of multidisciplinary and more heterogeneous programs "orbiting" the core in the periphery, shaping and innovating the field.The learning sciences as an academic community started to grow some 30 years ago, when the idea of investigating learning and teaching in the real world brought together scientists from various research areas. Stemming from fields like psychology, sociology, computer science, design studies, science, mathematics or medical education, social work, and the young field of cognitive science, these scientists had different academic backgrounds regarding both theory and methods (Hoadley & Van Haneghan, 2011). Thus, from the very beginning, a characteristic of the learning sciences was and continues to be its multifaceted nature, originating from the involvement of diverse scientific fields, each contributing to research on learning and supporting learning in its own way.Since then, an academic community has evolved and flourished, which has increased considerably regarding its scientific impact and popularity. Today, there are many universities across the globe offering graduate programs in learning sciences. Still, up to now little has been known about the disciplines involved in offering these programs and the theories, concepts, and (research) methods they teach. As Yoon and Hmelo-Silver (2017) point out, knowing the extent to which learning sciences programs align might be crucial knowledge to understand both the current status of learning sciences and its future development, which depends on what future learning scientists learn in these programs (Nathan, Rummel, & Hay, 2016). The present study aims to answer the question of the current alignment of graduate learning sciences programs and thereby adds to and extends the...
Purpose To advance the learning of professional practices in teacher education and medical education, this conceptual paper aims to introduce the idea of representational scaffolding for digital simulations in higher education. Design/methodology/approach This study outlines the ideas of core practices in two important fields of higher education, namely, teacher and medical education. To facilitate future professionals’ learning of relevant practices, using digital simulations for the approximation of practice offers multiple options for selecting and adjusting representations of practice situations. Adjusting the demands of the learning task in simulations by selecting and modifying representations of practice to match relevant learner characteristics can be characterized as representational scaffolding. Building on research on problem-solving and scientific reasoning, this article identifies leverage points for employing representational scaffolding. Findings The four suggested sets of representational scaffolds that target relevant features of practice situations in simulations are: informational complexity, typicality, required agency and situation dynamics. Representational scaffolds might be implemented in a strategy for approximating practice that involves the media design, sequencing and adaptation of representational scaffolding. Originality/value The outlined conceptualization of representational scaffolding can systematize the design and adaptation of digital simulations in higher education and might contribute to the advancement of future professionals’ learning to further engage in professional practices. This conceptual paper offers a necessary foundation and terminology for approaching related future research.
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