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Useful to researchers as well as practitioners looking for guidance on designing automated instruction systems, this book provides a snapshot of the state-of-the-art in this research area. In so doing, it focuses on the two critical problems: first, diagnosis of the student's current level of understanding or performance; and second, selection of the appropriate intervention that will transition the student toward expert performance. Containing a comprehensive set of principled approaches to automated instruction, diagnosis, and remediation, it is the first volume on the topic to provide specific, detailed guidance on how to develop these systems. Leading researchers and practitioners represented in this book address the following questions in each chapter: * What is your approach to cognitive diagnosis for automated instruction? * What is the theoretical basis of your approach? * What data support the utility of the approach? * What is the range of applicability of your approach? * What knowledge engineering or task analysis methods are required to support your approach? Referring to automated instruction as instruction that is delivered on any microprocessor-based system, the contributors to -- and editors of -- this book believe that is it possible for automated instructional systems to be more effective than they currently are. Specifically, they argue that by using artificial intelligence programming techniques, it is possible for automated instructional systems to emulate the desirable properties of human tutors in one-on-one instruction.
"This book is the outcome of a National Science Foundation study entitled: 'Paradigm Shifts in Engineering Education: The Influence of Technology,' SED-9253002. The overall objective of this study was to forecast which of the various possible futures in engineering education were most promising to pursue. The first part of the book contains a series of critical review papers that survey the state-of-the-art in various aspects of engineering education and attempts to look at the future to determine directions for future directions for engineering education. The second part of the book contains data and summaries from meetings held by focus groups convened to discuss possible alternative forecasts." -From the Editor's Note
This workshop was organized and presented by an international group of scholars interested in the advancement of automating instructional design. Although the principal leader for this effort was myself, each of the committee members devoted equally in time and effort in the total preparation and conducting of the workshop. Members of the organizing committee included Dr. Klaus Breuer from disce and the University ofPaderbom (Germany), Dr. Begofia Gros from the University of Barcelona, and Dr. Daniel Muraida and Dr. Michael Spector from the Armstrong Laboratory (USA). Dr. Gros participated as the co-director of the workshop and was directly responsible for the preparation and operation of the workshop in Sitges, Spain. The workshop was held in Sitges, a short distance from Barcelona, March 23-27, 1992. Because of preparations at that time for the 1992 summer Olympic Games in Barcelona, the workshop was moved to a more convenient location. The theme of the workshop included three main topics: planning, production, and implementation. Dr. Peter Goodyear, from the Lancaster University (England), presented the invited keynote address. During the four day workshop, 14 papers were presented and discussed. Following each of the three topic areas, Drs. Gros and Breuer led discussions critiquing the ideas presented.
This volume is based on papers presented at the 30th Carnegie Mellon Symposium on Cognition. This particular symposium was conceived in reference to the 1974 symposium entitled Cognition and Instruction. In the 25 years since that symposium, reciprocal relationships have been forged between psychology and education, research and practice, and laboratory and classroom learning contexts. Synergistic advances in theories, empirical findings, and instructional practice have been facilitated by the establishment of new interdisciplinary journals, teacher education courses, funding initiatives, and research institutes. So, with all of this activity, where is the field of cognition and instruction? How much progress has been made in 25 years? What remains to be done? This volume proposes and illustrates some exciting and challenging answers to these questions. Chapters in this volume describe advances and challenges in four areas, including development and instruction, teachers and instructional strategies, tools for learning from instruction, and social contexts of instruction and learning. Detailed analyses of tasks, subjects' knowledge and processes, and the changes in performance over time have led to new understanding of learners' representations, their use of multiple strategies, and the important role of metacognitive processes. New methods for assessing and tracking the development and elaboration of knowledge structures and processing strategies have yielded new conceptualizations of the process of change. Detailed cognitive analysis of expert teachers, as well as a direct focus on enhancing teachers' cognitive models of learners and use of effective instructional strategies, are other areas that have seen tremendous growth and refinement in the past 25 years. Similarly, the strong impact of curriculum materials and activities based on a thorough cognitive analysis of the task has been extended to the use of technological tools for learning, such as intelligent tutors and complex computer based instructional interfaces. Both the shift to conducting a significant portion of the cognition and instruction research in real classrooms and the increased collaboration between academics and educators have brought the role of the social context to center stage.
The field of educational technology is exploding in terms of innovations being developed daily. Most of these innovations hold fascinating promise but enjoy almost no empirical support. There are educational researchers who have both developed innovations and tested their potential empirically. This book will capture the latest and most promising innovations from the leading educational technologists in the world, including animations, simulations, visualizations, navigation, manipulatives, pedagogical agents, and assessment. This book is appropriate for university courses in educational technology for those wishing to showcase the latest innovations that are accompanied by empirical support.
With contributions from an international group of authors with diverse backgrounds, this set comprises all fourteen volumes of the proceedings of the 4th AHFE Conference 21-25 July 2012. The set presents the latest research on current issues in Human Factors and Ergonomics. It draws from an international panel that examines cross-cultural differences, design issues, usability, road and rail transportation, aviation, modeling and simulation, and healthcare.
Now more than ever, the design of systems and devices for effective and safe healthcare delivery has taken center stage. And the importance of human factors and ergonomics in achieving this goal can’t be ignored. Underlining the utility of research in achieving effective design, Advances in Human Aspects of Healthcare discusses how human factors and ergonomics principles can be applied to improve quality, safety, efficiency, and effectiveness in patient care. Topics include the design of work environments to improve satisfaction and well-being of patients, healthcare providers, and professionals. The book explores new approaches for improving healthcare devices such as portable ultrasound systems, better work design, and effective communications and systems support. It also examines healthcare informatics for the public and usability for patient users, building on results from usability studies for medical personnel. Several chapters explore quality and safety while others examine medical error for risk factors and information transfer in error reduction. The book provides an integrated review of physical, cognitive, and organizational aspects that facilitates a systems approach to implementation. These features and more allow practitioners to gain a deeper understanding of the issues in healthcare delivery and the role ergonomics and human factors can play in solving them.