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What are the processes, from conception to adulthood, that enable a single cell to grow into a sentient adult? The processes that occur along the way are so complex that any attempt to understand development necessitates a multi-disciplinary approach, integrating data from cognitive studies, computational work, and neuroimaging - an approach till now seldom taken in the study of child development. Neuroconstructivism is a major new 2 volume publication that seeks to redress this balance, presenting an integrative new framework for considering development. In the first volume, the authors review up-to-to date findings from neurobiology, brain imaging, child development, computer and robotic modelling to consider why children's thinking develops the way it does. They propose a new synthesis of development that is based on 5 key principles found to operate at many levels of descriptions. They use these principles to explain what causes a number of key developmental phenomena, including infants' interacting with objects, early social cognitive interactions, and the causes of dyslexia. The "neuroconstructivist" framework also shows how developmental disorders do not arise from selective damage to the normal cognitive system, but instead arise from developmental processes that operate under atypical constraints. How these principles work is illustrated in several case studies ranging from perceptual to social and reading development. Finally, the authors use neuroimaging, behavioural analyses, computational simulations and robotic models to provide a way of understanding the mechanisms and processes that cause development to occur.
What are the processes, from conception to adulthood, that enable a single cell to grow into a sentient adult? This work sets out a whole new framework for considering the complex topic of development, integrating data from cognitive studies, computational work, and neuroimaging.
In the World Library of Psychologists series, international experts present career-long collections of what they judge to be their finest pieces - extracts from books, key articles, salient research findings, and their major practical theoretical contributions. This influential volume of papers, chosen by Professor Annette Karmiloff-Smith before she passed away, recognises her major contribution to the field of developmental psychology. Published over a 40-year period, the papers included here address the major themes that permeate through Annette’s work: from typical to atypical development, genetics and computation modelling approaches, and neuroimaging of the developing brain. A newly written introduction by Michael S. C. Thomas and Mark H. Johnson gives an overview of her research journey and contextualises her selection of papers in relation to changes in the field over time. Thinking Developmentally from Constructivism to Neuroconstructivism: Selected Works of Annette Karmiloff-Smith is of great interest to researchers and postgraduates in child development specialising in atypical development, developmental disorders, and developmental neuroscience. It also has appeal to clinical neuropsychologists and rehabilitation professionals.
Neuroscience contributes to the basic understanding of the neural mechanisms underlying human development and learning. Educational neuroscience is an interdisciplinary research field that seeks to translate research findings on neural mechanisms of learning to educational practice and policy and to understand the effects of education on the brain. It is an emerging multidisciplinary field where the aim is to link basic research in neuroscience, psychology, and cognitive science, with educational technology. Educational neuroscience is often associated with the ‘science’ of learning and encompasses a broad range of scientific disciplines, from basic neuroscience to cognitive psychology to computer science to social theory. It is an interdisciplinary research field that seeks to translate research findings on neural mechanisms of learning to educational practice and policy and to understand the effects of education on the brain. Neuroscience research usually focuses only on learning, but there is a developing subfield within neuroscience called “Mind, Brain and Education” (MBE) that attempts to link research with teaching. MBE researchers consider how to take advantage of the natural human attention span, how to use studies about memory systems to inform lesson planning, and how to use research on the role of emotions in learning. In neuroscience research, progress has been extraordinary, including advances in both understanding and technology. Scientists from a wide range of disciplines are being attracted to the challenge of understanding the brain. In spite of discoveries regarding the structure of the brain, we still do not understand how the nervous system allows us to see, hear, learn, remember, and plan certain actions. Educators and schools around the globe are increasingly relying on the knowledge, techniques, and programs developed based on a new understanding of how our brains work. This knowledge is being applied to the classroom. A growing amount of attention is being paid to neuroscience and how the results of empirical research may be used to help individuals learn more effectively. In this Research Topic, academic scientists, researchers, and scholars will share their experiences and research results on all aspects of brain-based learning and educational neuroscience. Furthermore, it provides a premier interdisciplinary platform for researchers, practitioners, and educators to present the latest developments, trends, and concerns. In addition, it discusses practical challenges encountered and solutions adopted in the field of Educational Neuroscience. The focus of this Research Topic is to bring together academic scientists, researchers, and scholars to exchange and share their experiences and research findings related to brain-based learning and educational neuroscience. Researchers, practitioners, and educators will also be able to present and discuss the newest innovations, trends, and concerns. This will include practical challenges encountered and solutions adopted in Educational Neuroscience as well as in related fields. All original and unpublished papers describing conceptual, constructive, empirical, experimental, or theoretical work in any area of Brain Based Learning and Educational Neuroscience or studies that explore the intersections between neuroscience, psychology, and education are highly encouraged. Aspects, topics, and critical issues of interest include, but are not limited to: neuroscience applications in enhanced-learning, how students learn mathematics and language, personal motivation, social and emotional learning, motivation, the biology of learning, brain functions and information processing, and many others.
What are the processes, from conception to adulthood, that enable a single cell to grow into a sentient adult? The processes that occur along the way are so complex that any attempt to understand development necessitates a multi-disciplinary approach, integrating data from cognitive studies, computational work, and neuroimaging - an approach till now seldom taken in the study of child development. Neuroconstructivism is a major new 2 volume publication that seeks to redress this balance, presenting an integrative new framework for considering development. Computer and robotic models provide concrete tools for investigating the processes and mechanisms involved in learning and development. Volume 2 illustrates the principles of 'Neuroconstructivist' development, with contributions from 9 different labs across the world. Each of the contributions illustrates how models play a central role in understanding development. The models presented include standard connectionist neural network models as well as multi-agent models. Also included are robotic models emphasizing the need to take embodiment and brain-system interactions seriously. A model of Autism and one of Specific Language Impairment also illustrate how atypical development can be understood in terms of the typical processes of development but operating under restricted conditions. This volume complements Volume 1 by providing concrete examples of how the 'Neuroconstructivist' principles can be grounded within a diverse range of domains, thereby shaping the research agenda in those domains.
From the author of Neuromyths, a revolutionary look at teaching and learning via the logical pathways of the brain. A review of the research on brain networks reveals, surprisingly, that there are just five basic pillars through which all learning takes place: Symbols, Patterns, Order, Categories, and Relationships. Dr. Tokuhama-Espinosa proposes that redesigning school curriculum around these five pillars—whether to augment or replace traditional subject categories—could enable students to develop the transdisciplinary problem-solving skills that are often touted as the ultimate goal of education. Heralding a potential paradigm shift in education, Five Pillars of the Mind explores how aligning instruction with the brain's natural design might just be the key to improving students' learning outcomes.
Encyclopedia of Infant and Early Childhood Development, Second Edition, provides a comprehensive entry point into the existing literature on child development in the fields of psychology, genetics, neuroscience and sociology. Featuring 171 chapters, across 3 volumes, this work helps readers understand these developmental changes, when they occur, why they occur, how they occur, and the factors that influence development. Although some medical information is included, the emphasis lies mainly in normal growth, primarily from a psychological perspective. Comprehensive and in-depth scholarly articles cover theoretical, applied and basic science topics, providing an interdisciplinary approach. All articles have been completely updated, making this resource ideal for a wide range of readers, including advanced undergraduate and graduate students, researchers and clinicians in developmental psychology, medicine, nursing, social science and early childhood education. Cutting-edge content that cover the period of neonates to age three Organized alphabetically by topic for ease of reference Provides in-depth scholarly articles, covering theoretical, applied and basic science Includes suggested readings at the end of each article
Cognitive Development and Cognitive Neuroscience: The Learning Brain is a thoroughly revised edition of the bestselling Cognitive Development. The new edition of this full-colour textbook has been updated with the latest research in cognitive neuroscience, going beyond Piaget and traditional theories to demonstrate how emerging data from the brain sciences require a new theoretical framework for teaching cognitive development, based on learning. Building on the framework for teaching cognitive development presented in the first edition, Goswami shows how different cognitive domains such as language, causal reasoning and theory of mind may emerge from automatic neural perceptual processes. Cognitive Neuroscience and Cognitive Development integrates principles and data from cognitive science, neuroscience, computer modelling and studies of non-human animals into a model that transforms the study of cognitive development to produce both a key introductory text and a book which encourages the reader to move beyond the superficial and gain a deeper understanding of the subject matter. Cognitive Development and Cognitive Neuroscience is essential for students of developmental and cognitive psychology, education, language and the learning sciences. It will also be of interest to anyone training to work with children.
This volume presents cutting-edge theory and research on emotions as constructed events rather than fixed, essential entities. It provides a thorough introduction to the assumptions, hypotheses, and scientific methods that embody psychological constructionist approaches. Leading scholars examine the neurobiological, cognitive/perceptual, and social processes that give rise to the experiences Western cultures call sadness, anger, fear, and so on. The book explores such compelling questions as how the brain creates emotional experiences, whether the "ingredients" of emotions also give rise to other mental states, and how to define what is or is not an emotion. Introductory and concluding chapters by the editors identify key themes and controversies and compare psychological construction to other theories of emotion.
An overview of current research at the intersection of psychology and biology, integrating evolutionary and developmental data and explanations. In the past few decades, sources of inspiration in the multidisciplinary field of cognitive science have widened. In addition to ongoing vital work in cognitive and affective neuroscience, important new work is being conducted at the intersection of psychology and the biological sciences in general. This volume offers an overview of the cross-disciplinary integration of evolutionary and developmental approaches to cognition in light of these exciting new contributions from the life sciences. This research has explored many cognitive abilities in a wide range of organisms and developmental stages, and results have revealed the nature and origin of many instances of the cognitive life of organisms. Each section of Cognitive Biology deals with a key domain of cognition: spatial cognition; the relationships among attention, perception, and learning; representations of numbers and economic values; and social cognition. Contributors discuss each topic from the perspectives of psychology and neuroscience, brain theory and modeling, evolutionary theory, ecology, genetics, and developmental science. Contributors Chris M. Bird, Elizabeth M. Brannon, Neil Burgess, Jessica F. Cantlon, Stanislas Dehaene, Christian F. Doeller, Reuven Dukas, Rochel Gelman, Alexander Gerganov, Paul W. Glimcher, Robert L. Goldstone, Edward M. Hubbard, Lucia F. Jacobs, Mark H. Johnson, Annette Karmiloff-Smith, David Landy, Lynn Nadel, Nora S. Newcombe, Daniel Osorio, Mary A. Peterson, Manuela Piazza, Philippe Pinel, Michael L. Platt, Kristin R. Ratliff, Michael E. Roberts, Wendy S. Shallcross, Stephen V. Shepherd, Sylvain Sirois, Luca Tommasi, Alessandro Treves, Alexandra Twyman, Giorgio Vallortigara