Medienkombination, Englisch, 576 Seiten, Format (B × H): 156 mm x 232 mm, Gewicht: 896 g
Medienkombination, Englisch, 576 Seiten, Format (B × H): 156 mm x 232 mm, Gewicht: 896 g
ISBN: 978-0-19-921482-2
Verlag: Oxford University Press
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 normal cognitive systems, 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.
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.
Autoren/Hrsg.
Fachgebiete
- Technische Wissenschaften Technik Allgemein Mess- und Automatisierungstechnik
- Sozialwissenschaften Psychologie Allgemeine Psychologie Entwicklungspsychologie Kinder- und Jugendpsychologie
- Geisteswissenschaften Philosophie Moderne Philosophische Disziplinen Philosophie des Geistes, Neurophilosophie
- Technische Wissenschaften Elektronik | Nachrichtentechnik Elektronik Robotik
- Mathematik | Informatik EDV | Informatik Informatik Künstliche Intelligenz Wissensbasierte Systeme, Expertensysteme
- Naturwissenschaften Biowissenschaften Biowissenschaften Neurobiologie, Verhaltensbiologie
- Sozialwissenschaften Pädagogik Pädagogik Pädagogische Psychologie
- Sozialwissenschaften Psychologie Psychologie / Allgemeines & Theorie Experimentelle Psychologie
- Sozialwissenschaften Pädagogik Schulen, Schulleitung Kindergarten & Vorschule
Weitere Infos & Material
- Volume I: Part I - Foundations
- 1: Introduction
- 2: Encellment: the emerging function and morphology of neurons
- 3: Embrainment: the brain unboxed
- 4: Embodiment: representations in context
- 5: Principles, mechanisms, and processes
- Part II - Case Studies
- 6: The cortical basis of early visual perception. a story of multiple representations
- 7: Habituation in infancy. from interacting neural systems to active exploration
- 8: Phonological development. the integration of sensory motor representations
- 9: Infants and objects. from functional brain systems to behavior
- 10: Ensocialment. minds and brains in society
- 11: Lessons from atypical development
- 12: Dyslexia: a case study of the application of the neuroconstructivist principles
- Part III - Conclusions
- 13: Conclusions and challenges for the future
- Volume II
- 1: Denis Mareschal, Sylvain Sirois, and Gert Westermann: Introduction
- 2: James A Bednar and Risto Miikkulainen: Constructing visual function through prenatal and postal learning
- 3: Melissa Dominguez and Robert A Jacobs: Learning the best first: interactions between visual development and learning
- 4: Thomas R Shultz, Shreesh P Mysore, and Steven R Quartz: Why let networks grow?
- 5: Maartje Raijmakers: Modeling cognitive developmental transitions in neural networks: bifurcations in an adaptive resonance theory model
- 6: Matthew Schlesinger and Domenico Parisi: Connectionism in an artifical life perspective: simulating motor, cognitive, and language development
- 7: Yiannis Demiris: Using robots to study the mechanisms of imitation
- 8: Olaf Sporns: What neuro-robotic models can teach us about neural and cognitive development
- 9: Marc F Joanisse: Phonological deficits and developmental language impairments: evidence from connectionist models
- 10: Ira L Cohen: A neural network model of autism: implications for theory and treatment
- 11: Mark H Johnson and Denis Mareschal: Conclusion: the future of neuroconstructivism
