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Building Intelligent Interactive Tutors discusses educational systems that assess a student's knowledge and are adaptive to a student's learning needs. The impact of computers has not been generally felt in education due to lack of hardware, teacher training, and sophisticated software. and because current instructional software is neither truly responsive to student needs nor flexible enough to emulate teaching. Dr. Woolf taps into 20 years of research on intelligent tutors to bring designers and developers a broad range of issues and methods that produce the best intelligent learning environments possible, whether for classroom or life-long learning. The book describes multidisciplinary approaches to using computers for teaching, reports on research, development, and real-world experiences, and discusses intelligent tutors, web-based learning systems, adaptive learning systems, intelligent agents and intelligent multimedia. It is recommended for professionals, graduate students, and others in computer science and educational technology who are developing online tutoring systems to support e-learning, and who want to build intelligence into the system. - Combines both theory and practice to offer most in-depth and up-to-date treatment of intelligent tutoring systems available - Presents powerful drivers of virtual teaching systems, including cognitive science, artificial intelligence, and the Internet - Features algorithmic material that enables programmers and researchers to design building components and intelligent systems
"How Learning Happens introduces 28 giants of educational research and their findings on how we learn and what we need to learn effectively, efficiently and enjoyably. Many of these works have inspired researchers and teachers all around the world and have left a mark on how we teach today"--
Aims to outline major elements related to the sustainability of Networked Collaborative Learning (NCL). After comparing NCL with other Technology Enhanced Learning (TEL) approaches and discussing the possible reasons for adopting it, this work proposes a multidimensional model for the sustainability of NCL.
This book addresses the point of intersection between cognition, metacognition, and culture in learning and teaching Science, Technology, Engineering, and Mathematics (STEM). We explore theoretical background and cutting-edge research about how various forms of cognitive and metacognitive instruction may enhance learning and thinking in STEM classrooms from K-12 to university and in different cultures and countries. Over the past several years, STEM education research has witnessed rapid growth, attracting considerable interest among scholars and educators. The book provides an updated collection of studies about cognition, metacognition and culture in the four STEM domains. The field of research, cognition and metacognition in STEM education still suffers from ambiguity in meanings of key concepts that various researchers use. This book is organized according to a unique manner: Each chapter features one of the four STEM domains and one of the three themes—cognition, metacognition, and culture—and defines key concepts. This matrix-type organization opens a new path to knowledge in STEM education and facilitates its understanding. The discussion at the end of the book integrates these definitions for analyzing and mapping the STEM education research. Chapter 4 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com
Whether it is earning a GED, a particular skill, or technical topic for a career, taking classes of interest, or even returning to begin a degree program or completing it, adult learning encompasses those beyond the traditional university age seeking out education. This type of education could be considered non-traditional as it goes beyond the typical educational path and develops learners that are self-initiated and focused on personal development in the form of gaining some sort of education. Essentially, it is a voluntary choice of learning throughout life for personal and professional development. While there is often a large focus towards K-12 and higher education, it is important that research also focuses on the developing trends, technologies, and techniques for providing adult education along with understanding lifelong learners’ choices, developments, and needs. The Research Anthology on Adult Education and the Development of Lifelong Learners focuses specifically on adult education and the best practices, services, and educational environments and methods for both the teaching and learning of adults. This spans further into the understanding of what it means to be a lifelong learner and how to develop adults who want to voluntarily contribute to their own development by enhancing their education level or knowledge of certain topics. This book is essential for teachers and professors, course instructors, business professionals, school administrators, practitioners, researchers, academicians, and students interested in the latest advancements in adult education and lifelong learning.
Why is metacognition gaining recognition, both in education generally and in science learning in particular? What does metacognition contribute to the theory and practice of science learning? Metacognition in Science Education discusses emerging topics at the intersection of metacognition with the teaching and learning of science concepts, and with higher order thinking more generally. The book provides readers with a background on metacognition and analyses the latest developments in the field. It also gives an account of best-practice methodology. Expanding on the theoretical underpinnings of metacognition, and written by world leaders in metacognitive research, the chapters present cutting-edge studies on how various forms of metacognitive instruction enhance understanding and thinking in science classrooms. The editors strive for conceptual coherency in the various definitions of metacognition that appear in the book, and show that the study of metacognition is not an end in itself. Rather, it is integral to other important constructs, such as self-regulation, literacy, the teaching of thinking strategies, motivation, meta-strategies, conceptual understanding, reflection, and critical thinking. The book testifies to a growing recognition of the potential value of metacognition to science learning. It will motivate science educators in different educational contexts to incorporate this topic into their ongoing research and practice.
This book investigates issues surrounding the concept of complex learning-teaching environments. The first part provides an overview of general themes connected to complex learning-teaching environments, and sheds some light on the theoretical background of the concept. The second part demonstrates how the idea of complex learning-teaching environments influences the particular training contexts in different countries.
First Published in 2008. Routledge is an imprint of Taylor & Francis, an informa company.