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brain and cognitive science: MATLAB for Brain and Cognitive Scientists Mike X Cohen, 2017-05-12 An introduction to a popular programming language for neuroscience research, taking the reader from beginning to intermediate and advanced levels of MATLAB programming. MATLAB is one of the most popular programming languages for neuroscience and psychology research. Its balance of usability, visualization, and widespread use makes it one of the most powerful tools in a scientist's toolbox. In this book, Mike Cohen teaches brain scientists how to program in MATLAB, with a focus on applications most commonly used in neuroscience and psychology. Although most MATLAB tutorials will abandon users at the beginner's level, leaving them to sink or swim, MATLAB for Brain and Cognitive Scientists takes readers from beginning to intermediate and advanced levels of MATLAB programming, helping them gain real expertise in applications that they will use in their work. The book offers a mix of instructive text and rigorous explanations of MATLAB code along with programming tips and tricks. The goal is to teach the reader how to program data analyses in neuroscience and psychology. Readers will learn not only how to but also how not to program, with examples of bad code that they are invited to correct or improve. Chapters end with exercises that test and develop the skills taught in each chapter. Interviews with neuroscientists and cognitive scientists who have made significant contributions their field using MATLAB appear throughout the book. MATLAB for Brain and Cognitive Scientists is an essential resource for both students and instructors, in the classroom or for independent study. |
brain and cognitive science: Cognitive Science Daniel Kolak, 2006 Cognitive Science is a major new guide to the central theories and problems in the study of the mind and brain. The authors clearly explain how and why cognitive science aims to understand the brain as a computational system that manipulates representations. They identify the roots of cognitive science in Descartes - who argued that all knowledge of the external world is filtered through some sort of representation - and examine the present-day role of Artificial Intelligence, computing, psychology, linguistics and neuroscience. Throughout, the key building blocks of cognitive science are clearly illustrated: perception, memory, attention, emotion, language, control of movement, learning, understanding and other important mental phenomena. Cognitive Science: presents a clear, collaborative introduction to the subject is the first textbook to bring together all the different strands of this new science in a unified approach includes illustrations and exercises to aid the student |
brain and cognitive science: Memory and the Computational Brain C. R. Gallistel, Adam Philip King, 2009-04-27 Memory and the Computational Brain offers a provocative argument that goes to the heart of neuroscience, proposing that the field can and should benefit from the recent advances of cognitive science and the development of information theory over the course of the last several decades. A provocative argument that impacts across the fields of linguistics, cognitive science, and neuroscience, suggesting new perspectives on learning mechanisms in the brain Proposes that the field of neuroscience can and should benefit from the recent advances of cognitive science and the development of information theory Suggests that the architecture of the brain is structured precisely for learning and for memory, and integrates the concept of an addressable read/write memory mechanism into the foundations of neuroscience Based on lectures in the prestigious Blackwell-Maryland Lectures in Language and Cognition, and now significantly reworked and expanded to make it ideal for students and faculty |
brain and cognitive science: Soul, Mind and Brain from Descartes to Cognitive Science Paolo Pecere, 2020-10-15 This interdisciplinary book ties the historical work of Descartes to his successors through current research and critical overviews on the neuroscience of consciousness, the brain, and cognition. This text is the first historical survey to focus on the cohesions and discontinuities between historical and contemporary thinkers working in philosophy, physiology, psychology, and neuroscience. The book introduces and analyzes early discussions of consciousness, such as: metaphysical alternatives to scientific explanations of consciousness and its connection to brain activity; claims about the possibilities and limits of neuroscientific accounts of consciousness and cognition; and the proposition of a “non-reductive naturalism” concerning phenomenal consciousness and rationality. The author assesses the contributions of early philosophers and scientists on brain, consciousness and cognition, among them: Descartes, Malebranche, Spinoza, Leibniz, Locke, Newton, Haller, Kant, Fechner, Helmholtz and du Bois-Reymond. The work of these pioneers is related to that of modern researchers in physiology, psychology, neuroscience and philosophy of mind, including: Freud, Hilary Putnam, Herbert Feigl, Gerald Edelman, Jean-Pierre Changeux, Daniel Dennett and David Chalmers, amongst others. This text appeals to researchers and advanced students in the field. |
brain and cognitive science: God on the Brain Brad Sickler, 2020-07-07 The human brain is incredibly complex. Both Christian and secular scholars alike affirm this fact, yet the traditional view of humanity as spiritual beings made in the image of God has come under increased pressure from humanistic and materialistic thinkers who deny that humans are anything more than their physical bodies. Christians have long affirmed that humans are spiritual beings made by God to know and fellowship with him, while the humanist position views humans as merely evolved animals. Bradley Sickler provides a timely theological, scientific, and philosophical assessment of the human brain, highlighting the many ways in which the gospel informs the Christian understanding of cognitive science. Here is a book that provides a much-needed summary of the Bible’s teaching as it sheds light on the brain, with careful interaction with the claims of modern science, arguing that the Christian worldview offers the most compelling vision of the true nature of humanity. |
brain and cognitive science: The Cognitive Classroom Jerome L. Rekart, 2013-08-15 The Cognitive Classroom describes how cutting-edge and classic research findings from the fields of brain science and cognitive psychology may be applied to classroom teaching. Using the perspective and expertise of an educational researcher originally trained as a neuroscientist, research findings and theories are translated into practical strategies. The jargon so often found in research journals and technical reports is discarded here, as studies are presented in an engaging manner that any educated individual can easily follow. Specifically, the book describes how research on perception, attention, learning, memory, language, reasoning, and problem solving may be used to achieve the type of “deep” learning sought after by teachers. What's more, this book discusses recent findings showing how the brains and cognitive processes of today’s students have been impacted by technology and proposes actions that educators can take to optimize teaching in a digital world. |
brain and cognitive science: Bring Your Brain to Work Art Markman, 2019-05-21 To succeed at work, first you need to understand your own brain If you're in a job interview, how should you think about the mindset of the interviewer? If you've just been promoted, how do you handle the tensions of managing former peers? And what are the telltale mental signs that it's time to start planning your next career move? We know that psychology can teach us much about behaviors and challenges relevant to work, such as making better decisions, influencing people, and dealing with stress. But many popular books on these topics analyze them as universal human phenomena without providing real-life, constructive career help. Bring Your Brain to Work changes all that. Professor, author, and popular radio host Art Markman focuses on three essential elements of a successful career--getting a job, excelling at work, and finding your next position--and expertly illustrates how cognitive science, especially psychology, sheds fascinating and useful light on each of these elements. To succeed at a job interview, for example, you need to understand the mindset of the interviewer and know how to come across as exactly the individual the company wants to hire. To keep that job, it's critical to master the mental challenge of learning every day. Finally, careers require constant development, so you need to be able to sense when it's time to move up or out and to prepare yourself for the move. So many of the hurdles you face throughout your career are, first and foremost, psychological challenges, and Markman shows you how to use your different mental systems--motivational, social, and cognitive--to manage them more effectively. Integrating the latest research with engaging stories and examples from across the professional spectrum, Bring Your Brain to Work gets inside your head, helping you to succeed through a better understanding of yourself and those around you. |
brain and cognitive science: Language, Brain, and Cognitive Development Jacques Mehler, 2001 The contributions to this collection assess the progress of cognitive science. The questions addressed include: What have we learned or not learned about language, brain, and cognition? Where are we now? Where have we failed? Where have we succeeded? |
brain and cognitive science: Cognitive Science Jay Friedenberg, Gordon Silverman, Michael J. Spivey, 2021-08-25 Cognitive Science provides a comprehensive and up-to-date introduction to the study of the mind from an interdisciplinary perspective. |
brain and cognitive science: The Man Who Mistook His Wife For A Hat: And Other Clinical Tales Oliver Sacks, 1998 Explores neurological disorders and their effects upon the minds and lives of those affected with an entertaining voice. |
brain and cognitive science: An Introduction to the Cognitive Science of Religion Claire White, 2021-03-14 In recent decades, a new scientific approach to understand, explain, and predict many features of religion has emerged. The cognitive science of religion (CSR) has amassed research on the forces that shape the tendency for humans to be religious and on what forms belief takes. It suggests that religion, like language or music, naturally emerges in humans with tractable similarities. This new approach has profound implications for how we understand religion, including why it appears so easily, and why people are willing to fight—and die—for it. Yet it is not without its critics, and some fear that scholars are explaining the ineffable mystery of religion away, or showing that religion is natural proves or disproves the existence of God. An Introduction to the Cognitive Science of Religion offers students and general readers an accessible introduction to the approach, providing an overview of key findings and the debates that shape it. The volume includes a glossary of key terms, and each chapter includes suggestions for further thought and further reading as well as chapter summaries highlighting key points. This book is an indispensable resource for introductory courses on religion and a much-needed option for advanced courses. |
brain and cognitive science: Dynamical Cognitive Science Lawrence M. Ward, 2002 An introduction to the application of dynamical systems science to the cognitive sciences. Dynamical Cognitive Science makes available to the cognitive science community the analytical tools and techniques of dynamical systems science, adding the variables of change and time to the study of human cognition. The unifying theme is that human behavior is an unfolding in time whose study should be augmented by the application of time-sensitive tools from disciplines such as physics, mathematics, and economics, where change over time is of central importance. The book provides a fast-paced, comprehensive introduction to the application of dynamical systems science to the cognitive sciences. Topics include linear and nonlinear time series analysis, chaos theory, complexity theory, relaxation oscillators, and metatheoretical issues of modeling and theory building. Tools and techniques are discussed in the context of their application to basic cognitive science problems, including perception, memory, psychophysics, judgment and decision making, and consciousness. The final chapter summarizes the contemporary study of consciousness and suggests how dynamical approaches to cognitive science can help to advance our understanding of this central concept. |
brain and cognitive science: Mind, Brain and the Elusive Soul Mark Graves, 2016-04-22 Does science argue against the existence of the human soul? Many scientists and scholars believe the whole is more than the sum of the parts. This book uses information and systems theory to describe the more that does not reduce to the parts. One sees this in the synapses”or apparently empty gaps between the neurons in one's brain”where informative relationships give rise to human mind, culture, and spirituality. Drawing upon the disciplines of cognitive science, computer science, neuroscience, general systems theory, pragmatic philosophy, and Christian theology, Mark Graves reinterprets the traditional doctrine of the soul as form of the body to frame contemporary scientific study of the human soul. |
brain and cognitive science: The Cognitive-Emotional Brain Luiz Pessoa, 2013-10-04 A study that goes beyond the debate over functional specialization to describe the ways that emotion and cognition interact and are integrated in the brain. The idea that a specific brain circuit constitutes the emotional brain (and its corollary, that cognition resides elsewhere) shaped thinking about emotion and the brain for many years. Recent behavioral, neuropsychological, neuroanatomy, and neuroimaging research, however, suggests that emotion interacts with cognition in the brain. In this book, Luiz Pessoa moves beyond the debate over functional specialization, describing the many ways that emotion and cognition interact and are integrated in the brain. The amygdala is often viewed as the quintessential emotional region of the brain, but Pessoa reviews findings revealing that many of its functions contribute to attention and decision making, critical components of cognitive functions. He counters the idea of a subcortical pathway to the amygdala for affective visual stimuli with an alternate framework, the multiple waves model. Citing research on reward and motivation, Pessoa also proposes the dual competition model, which explains emotional and motivational processing in terms of their influence on competition processes at both perceptual and executive function levels. He considers the broader issue of structure-function mappings, and examines anatomical features of several regions often associated with emotional processing, highlighting their connectivity properties. As new theoretical frameworks of distributed processing evolve, Pessoa concludes, a truly dynamic network view of the brain will emerge, in which emotion and cognition may be used as labels in the context of certain behaviors, but will not map cleanly into compartmentalized pieces of the brain. |
brain and cognitive science: The Parallel Brain Eran Zaidel, 2003 An overview of the central role in cognitive neuroscience of the corpus callosum, the bands of tissue connecting the brain's two hemispheres. |
brain and cognitive science: Mind in Everyday Life and Cognitive Science Sunny Y. Auyang, 2001-03-15 Sunny Auyang tackles what she calls the large pictures of the human mind, exploring the relevance of cognitive science findings to everyday mental life. Auyang proposes a model of an open mind emerging from the self-organization of infrastructures, which she opposes to prevalent models that treat mind as a disembodied brain or computer, subject to the control of external agents such as neuroscientists and programmers. Although cognitive science has obtained abundant data on neural and computational processes, it barely explains such ordinary experiences as recognizing faces, feeling pain, or remembering the past. In this book Sunny Auyang tackles what she calls the large pictures of the human mind, exploring the relevance of cognitive science findings to everyday mental life. Auyang proposes a model of an open mind emerging from the self-organization of infrastructures, which she opposes to prevalent models that treat mind as a disembodied brain or computer, subject to the control of external agents such as neuroscientists and programmers. Her model consists of three parts: (1) the open mind of our conscious life; (2) mind's infrastructure, the unconscious processes studied by cognitive science; and (3) emergence, the relation between the open mind and its infrastructure. At the heart of Auyang's model is the mind that opens to the world and makes it intelligible. A person with an open mind feels, thinks, recognizes, believes, doubts, anticipates, fears, speaks, and listens, and is aware of I, together with it and thou. Cognitive scientists refer to the binding problem, the question of how myriad unconscious processes combine into the unity of consciousness. Auyang approaches the problem from the other end—by starting with everyday experience rather than with the mental infrastructure. In so doing, she shows both how analyses of experiences can help to advance cognitive science and how cognitive science can help us to understand ourselves as autonomous subjects. |
brain and cognitive science: What is Cognitive Science? Barbara Von Eckardt, 1995 In a richly detailed analysis, Von Eckardt (philosophy, U. of Nebraska) lays the foundation for understanding what it means to be a cognitive scientist. She characterizes the basic assumptions that define the cognitive science approach and systematically sorts out a host of recent issues and controversies surrounding them. Annotation copyright by Book News, Inc., Portland, OR |
brain and cognitive science: Evolutionary Cognitive Neuroscience Steven Platek, Julian Keenan, Todd Kennedy Shackelford, 2007 An essential reference for the new discipline of evolutionary cognitive neuroscience that defines the field's approach of applying evolutionary theory to guide brain-behavior investigations. Since Darwin we have known that evolution has shaped all organisms and that biological organs—including the brain and the highly crafted animal nervous system—are subject to the pressures of natural and sexual selection. It is only relatively recently, however, that the cognitive neurosciences have begun to apply evolutionary theory and methods to the study of brain and behavior. This landmark reference documents and defines the emerging field of evolutionary cognitive neuroscience. Chapters by leading researchers demonstrate the power of the evolutionary perspective to yield new data, theory, and insights on the evolution and functional modularity of the brain. Evolutionary cognitive neuroscience covers all areas of cognitive neuroscience, from nonhuman brain-behavior relationships to human cognition and consciousness, and each section of Evolutionary Cognitive Neuroscience addresses a different adaptive problem. After an introductory section that outlines the basic tenets of both theory and methodology of an evolutionarily informed cognitive neuroscience, the book treats neuroanatomy from ontogenetic and phylogenetic perspectives and explores reproduction and kin recognition, spatial cognition and language, and self-awareness and social cognition. Notable findings include a theory to explain the extended ontogenetic and brain development periods of big-brained organisms, fMRI research on the neural correlates of romantic attraction, an evolutionary view of sex differences in spatial cognition, a theory of language evolution that draws on recent research on mirror neurons, and evidence for a rudimentary theory of mind in nonhuman primates. A final section discusses the ethical implications of evolutionary cognitive neuroscience and the future of the field. Contributors: C. Davison Ankney, Simon Baron-Cohen, S. Marc Breedlove, William Christiana, Michael Corballis, Robin I. M. Dunbar, Russell Fernald, Helen Fisher, Jonathan Flombaum, Farah Focquaert, Steven J.C. Gaulin, Aaron Goetz, Kevin Guise, Ruben C. Gur, William D. Hopkins, Farzin Irani, Julian Paul Keenan, Michael Kimberly, Stephen Kosslyn, Sarah L. Levin, Lori Marino, David Newlin, Ivan S. Panyavin, Shilpa Patel, Webb Phillips, Steven M. Platek, David Andrew Puts, Katie Rodak, J. Philippe Rushton, Laurie Santos, Todd K. Shackelford, Kyra Singh, Sean T. Stevens, Valerie Stone, Jaime W. Thomson, Gina Volshteyn, Paul Root Wolpe |
brain and cognitive science: Foundations of Cognitive Science Michael I. Posner, 1989 What is cognitive science? The Foundations of Cognitive Science answers this question in a way that gives a feeling for the excitement, ferment, and accomplishments of this new field. It is the first broad treatment of cognitive science at an advanced level. Complete and authoritative, The Foundations of Cognitive Science covers the major architectures; provides background in philosophy linguistics, cognitive psychology, and neuroscience; and deals with methods for studying both brain and mind. All of the chapters have been written especially for the book by the leading scholars in the field. The foundations of cognitive science are developed in seven chapters covering computation, symbolic architectures, parallel distributed processing, grammars, semantics and formal logic, experimental cognitive science, and brain and cognition. These are then applied to the major cognitive domains of language acquisition, reading, discourse, mental models, categories and induction, problem solving, vision, visual attention, memory, action and motor control. The Foundations of Cognitive Science concludes with an assessment by a philosopher and a cognitive anthropologist. Michael I. Posner is Professor of Psychology at the University of Oregon. A Bradford Book. Contributors: Herbert A. SimonCraig A. KaplanZenon W. PylyshynAllen NewellJohn E. LairdPaul S. RosenbloomDavid E. RumelhartThomas WasowJon BarwiseJohn EtchemendyGordon H. BawerJohn P. ClapperTerrence J. SejnowskiPatricia Smith ChurchlandSteven PinkerAlexander PollatsekKeith RaynerBarbara J. GroszCandace L. SidnerMartha E. PollackP. N. Johnson-LairdEdward E. SmithKurt VanLehnEllen C. HildrethShimon UllmanAlan AllportDaniel L. SchacterDavid A. RosenbaumMichael I. JordanE. BizziF. A. Mussa IvaldiRoy D'AndradeGilbert Harman Contents: Computation, Symbolic Architectures, Parallel Distributed Processing, Grammars, Semantics and Formal Logic, Experimental Cognitive Science, Brain and Cognition, Language Acquisition, Reading, Discourse, Mental Models, Categories and Induction, Problem Solving, Vision, Visual Attention, Memory, Action, Motor Control, Culture, Philosophical Critique |
brain and cognitive science: Cognitive Science and the Social Stephen P. Turner, 2018-03-09 The rise of cognitive neuroscience is the most important scientific and intellectual development of the last thirty years. Findings pour forth, and major initiatives for brain research continue. The social sciences have responded to this development slowly--for good reasons. The implications of particular controversial findings, such as the discovery of mirror neurons, have been ambiguous, controversial within neuroscience itself, and difficult to integrate with conventional social science. Yet many of these findings, such as those of experimental neuro-economics, pose very direct challenges to standard social science. At the same time, however, the known facts of social science, for example about linguistic and moral diversity, pose a significant challenge to standard neuroscience approaches, which tend to focus on universal aspects of human and animal cognition. A serious encounter between cognitive neuroscience and social science is likely to be challenging, and transformative, for both parties. Although a literature has developed on proposals to integrate neuroscience and social science, these proposals go in divergent directions. None of them has a developed conception of social life. This book surveys these issues, introduces the basic alternative conceptions both of the mental world and the social world, and show how, with sufficient modification, they can be fit together in plausible ways. The book is not a new theory of anything, but rather an exploration of the critical issues that relate to the social aspects of cognition which expands the topic from the social neuroscience of immediate interpersonal interaction to the whole range of places where social variation interacts with the cognitive. The focus is on the conceptual problems produced by any attempt to take these issues seriously, and also on the new resources and considerations relevant to doing so. But it is also on the need for a revision of social theoretical concepts in order to utilize these resources. The book points to some conclusions, especially about how the process of what was known as socialization needs to be understood in cognitive science friendly terms. But there is no attempt to resolve the underlying issues within cognitive science, which will doubtless persist. |
brain and cognitive science: Cognition, Brain, and Consciousness Bernard J. Baars, Nicole M. Gage, 2010-02-04 Cognition, Brain, and Consciousness, Second Edition, provides students and readers with an overview of the study of the human brain and its cognitive development.It discusses brain molecules and their primary function, which is to help carry brain signals to and from the different parts of the human body. These molecules are also essential for understanding language, learning, perception, thinking, and other cognitive functions of our brain. The book also presents the tools that can be used to view the human brain through brain imaging or recording.New to this edition are Frontiers in Cognitive Neuroscience text boxes, each one focusing on a leading researcher and their topic of expertise. There is a new chapter on Genes and Molecules of Cognition; all other chapters have been thoroughly revised, based on the most recent discoveries.This text is designed for undergraduate and graduate students in Psychology, Neuroscience, and related disciplines in which cognitive neuroscience is taught. - New edition of a very successful textbook - Completely revised to reflect new advances, and feedback from adopters and students - Includes a new chapter on Genes and Molecules of Cognition - Student Solutions available at http://www.baars-gage.com/ For Teachers: - Rapid adoption and course preparation: A wide array of instructor support materials are available online including PowerPoint lecture slides, a test bank with answers, and eFlashcords on key concepts for each chapter. - A textbook with an easy-to-understand thematic approach: in a way that is clear for students from a variety of academic backgrounds, the text introduces concepts such as working memory, selective attention, and social cognition. - A step-by-step guide for introducing students to brain anatomy: color graphics have been carefully selected to illustrate all points and the research explained. Beautifully clear artist's drawings are used to 'build a brain' from top to bottom, simplifying the layout of the brain. For students: - An easy-to-read, complete introduction to mind-brain science: all chapters begin from mind-brain functions and build a coherent picture of their brain basis. A single, widely accepted functional framework is used to capture the major phenomena. - Learning Aids include a student support site with study guides and exercises, a new Mini-Atlas of the Brain and a full Glossary of technical terms and their definitions. - Richly illustrated with hundreds of carefully selected color graphics to enhance understanding. |
brain and cognitive science: Handbook of Cognitive Science Paco Calvo, Antoni Gomila, 2008-08-15 The Handbook of Cognitive Science provides an overview of recent developments in cognition research, relying upon non-classical approaches. Cognition is explained as the continuous interplay between brain, body, and environment, without relying on classical notions of computations and representation to explain cognition. The handbook serves as a valuable companion for readers interested in foundational aspects of cognitive science, and neuroscience and the philosophy of mind. The handbook begins with an introduction to embodied cognitive science, and then breaks up the chapters into separate sections on conceptual issues, formal approaches, embodiment in perception and action, embodiment from an artificial perspective, embodied meaning, and emotion and consciousness. Contributors to the book represent research overviews from around the globe including the US, UK, Spain, Germany, Switzerland, France, Sweden, and the Netherlands. |
brain and cognitive science: Cognition and the Brain Andrew Brook, Kathleen Akins, 2005-09-12 This volume provides an up to date and comprehensive overview of the philosophy and neuroscience movement, which applies the methods of neuroscience to traditional philosophical problems and uses philosophical methods to illuminate issues in neuroscience. At the heart of the movement is the conviction that basic questions about human cognition, many of which have been studied for millennia, can be answered only by a philosophically sophisticated grasp of neuroscience's insights into the processing of information by the human brain. Essays in this volume are clustered around five major themes: data and theory in neuroscience; neural representation and computation; visuomotor transformations; color vision; and consciousness. |
brain and cognitive science: Mind and Brain Sciences in the 21st Century Robert L. Solso, 1999 A collection of essays on possible futures of the science of the mind. |
brain and cognitive science: Cognitive Science: Recent Advances and Recurring Problems Fred Adams, Osvaldo Pessoa Jr., Joao E. Kogler Jr., 2017-05-30 This book consists of an edited collection of original essays of the highest academic quality by seasoned experts in their fields of cognitive science. The essays are interdisciplinary, drawing from many of the fields known collectively as “the cognitive sciences.” Topics discussed represent a significant cross-section of the most current and interesting issues in cognitive science. Specific topics include matters regarding machine learning and cognitive architecture, the nature of cognitive content, the relationship of information to cognition, the role of language and communication in cognition, the nature of embodied cognition, selective topics in visual cognition, brain connectivity, computation and simulation, social and technological issues within the cognitive sciences, and significant issues in the history of neuroscience. This book will be of interest to both professional researchers and newer students and graduate students in the fields of cognitive science—including computer science, linguistics, philosophy, psychology and neuroscience. The essays are in English and are designed to be as free as possible of technical jargon and therefore accessible to young scholars and to scholars who are new to the cognitive neurosciences. In addition to several entries by single authors, the book contains several interesting roundtables where researchers contribute answers to a central question presented to those in the focus group on one of the core areas listed above. This exciting approach provides a variety of perspectives from across disciplines on topics of current concern in the cognitive sciences. |
brain and cognitive science: Cognitive Development and Cognitive Neuroscience Usha Goswami, 2019-09-26 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. |
brain and cognitive science: The Student's Guide to Cognitive Neuroscience Jamie Ward, 2015-02-11 Reflecting recent changes in the way cognition and the brain are studied, this thoroughly updated third edition of the best-selling textbook provides a comprehensive and student-friendly guide to cognitive neuroscience. Jamie Ward provides an easy-to-follow introduction to neural structure and function, as well as all the key methods and procedures of cognitive neuroscience, with a view to helping students understand how they can be used to shed light on the neural basis of cognition. The book presents an up-to-date overview of the latest theories and findings in all the key topics in cognitive neuroscience, including vision, memory, speech and language, hearing, numeracy, executive function, social and emotional behaviour and developmental neuroscience, as well as a new chapter on attention. Throughout, case studies, newspaper reports and everyday examples are used to help students understand the more challenging ideas that underpin the subject. In addition each chapter includes: Summaries of key terms and points Example essay questions Recommended further reading Feature boxes exploring interesting and popular questions and their implications for the subject. Written in an engaging style by a leading researcher in the field, and presented in full-color including numerous illustrative materials, this book will be invaluable as a core text for undergraduate modules in cognitive neuroscience. It can also be used as a key text on courses in cognition, cognitive neuropsychology, biopsychology or brain and behavior. Those embarking on research will find it an invaluable starting point and reference. The Student’s Guide to Cognitive Neuroscience, 3rd Edition is supported by a companion website, featuring helpful resources for both students and instructors. |
brain and cognitive science: Cognitive Science José Luis Bermúdez, 2022-11-10 This popular textbook presents a unified and up-to-date introduction to the interdisciplinary field of cognitive science. |
brain and cognitive science: Analyzing Neural Time Series Data Mike X Cohen, 2014-01-17 A comprehensive guide to the conceptual, mathematical, and implementational aspects of analyzing electrical brain signals, including data from MEG, EEG, and LFP recordings. This book offers a comprehensive guide to the theory and practice of analyzing electrical brain signals. It explains the conceptual, mathematical, and implementational (via Matlab programming) aspects of time-, time-frequency- and synchronization-based analyses of magnetoencephalography (MEG), electroencephalography (EEG), and local field potential (LFP) recordings from humans and nonhuman animals. It is the only book on the topic that covers both the theoretical background and the implementation in language that can be understood by readers without extensive formal training in mathematics, including cognitive scientists, neuroscientists, and psychologists. Readers who go through the book chapter by chapter and implement the examples in Matlab will develop an understanding of why and how analyses are performed, how to interpret results, what the methodological issues are, and how to perform single-subject-level and group-level analyses. Researchers who are familiar with using automated programs to perform advanced analyses will learn what happens when they click the “analyze now” button. The book provides sample data and downloadable Matlab code. Each of the 38 chapters covers one analysis topic, and these topics progress from simple to advanced. Most chapters conclude with exercises that further develop the material covered in the chapter. Many of the methods presented (including convolution, the Fourier transform, and Euler's formula) are fundamental and form the groundwork for other advanced data analysis methods. Readers who master the methods in the book will be well prepared to learn other approaches. |
brain and cognitive science: The Cognitive Science of Science Paul Thagard, 2012 Thagard examines scientific development from the interdisciplinary perspective of cognitive science. Cognitive science combines insights from: philosophers analyze historical cases, psychologists carry out behavioral experiments, neuroscientists perform brain scans, and computer modelers write programs that simulate thought processes. |
brain and cognitive science: Understanding Cognitive Development Barbara Landau, 2016-09-17 The papers in this volume examine the state of the art in key areas of developmental cognitive neuroscience, focusing on theoretically driven research on cognition and its development. The past decade has seen an increasing number of empirical papers on the relationship between brain and cognitive development. But despite the clearly burgeoning interest in this topic, there is a relative paucity of work motivated by deep theoretical questions about the nature of cognition and its development. Many papers are still in the mode of reporting brain-cognition correlations with a focus on regional activations during brain imaging - a useful approach, but one that is limited with respect to its contributions to understanding the structure of cognition and its development. The papers in this special issue of Cognitive Neuropsychology consider a number of domains and mechanisms in cognition, including language, number, space, faces, reading, memory, and attention, and represent the wealth of approaches and techniques that can be used to shed light on the nature of cognitive development in brain and mind. These include cross-species comparisons, studies of development under experiential deprivation or genetic differences, classical developmental experimentation, and imaging techniques such as NIRS and fMRI which have recently been applied to developmental questions. The combination of solid theorizing together with a broad range of approaches allows a critical but constructive look at the latest findings in the field relevant to answering enduring questions about cognition, its development, and its realization in the developing brain. |
brain and cognitive science: Cognitive Science Jay Friedenberg, Gordon Silverman, 2015-09-23 In Cognitive Science 3e Friedenberg and Silverman provide a solid understanding of the major theoretical and empirical contributions of cognitive science. Their text, thoroughly updated for this new third edition, describes the major theories of mind as well as the major experimental results that have emerged within each cognitive science discipline. Throughout history, different fields of inquiry have attempted to understand the great mystery of mind and answer questions like: What is the mind? How do we see, think, and remember? Can we create machines that are conscious and capable of self-awareness? This books examines these questions and many more. Focusing on the approach of a particular cognitive science field in each chapter, the authors describe its methodology, theoretical perspective, and findings and then offer a critical evaluation of the field. Features: Offers a wide-ranging, comprehensive, and multidisciplinary introduction to the field of cognitive science and issues of mind. Interdisciplinary Crossroads” sections at the end of each chapter focus on research topics that have been investigated from multiple perspectives, helping students to understand the link between varying disciplines and cognitive science. End-of-chapter “Summing Up” sections provide a concise summary of the major points addressed in each chapter to facilitate student comprehension and exam preparation “Explore More” sections link students to the Student Study Site where the authors have provided activities to help students more quickly master course content and prepare for examinations Supplements: A password-protected Instructor’s Resource contains PowerPoint lectures, a test bank and other pedagogical material.The book's Study Site features Web links, E-flash cards, and interactive quizzes. |
brain and cognitive science: Brains/Practices/Relativism Stephen Turner, 2002-05 AcknowledgmentsIntroduction: Social Theory After Cognitive Science1. Throwing Out the Tacit Rule Book: Learning and Practices2. Searle's Social Reality3. Imitation or the Internalization of Norms: Is Twentieth-Century Social Theory Based on the Wrong Choice?4. Relativism as Explanation5. The Limits of Social Constructionism6. Making Normative Soup Out of Nonnormative Bones7. Teaching Subtlety of Thought: The Lessons of Contextualism8. Practice in Real Time9. The Significance of ShilsReferences Index Copyright © Libri GmbH. All rights reserved. |
brain and cognitive science: Cognitive Science, Religion, and Theology Justin L. Barrett, 2011-11-01 Cognitive Science, Religion, and Theology is the eighth title published in the Templeton Science and Religion Series, in which scientists from a wide range of fields distill their experience and knowledge into brief tours of their respective specialties. In this volume, well-known cognitive scientist Justin L. Barrett offers an accessible overview of this interdisciplinary field, reviews key findings in this area, and discusses the implications of these findings for religious thought and practice. Cognitive science is the interdisciplinary study of minds and mental activity, and as such, it addresses a fundamental feature of what it is to be human. Further, as religious traditions concern ideas and beliefs about the nature of humans, the nature of the world, and the nature of the divine, cognitive science can contribute directly and indirectly to these theological concerns. Barrett shows how direct contributions come from the growing area called cognitive science of religion (CSR), which investigates how human cognitive systems inform and constrain religious thought, experience, and expression. CSR attempts to answer questions such as: Why do humans tend to be religious? And why are specific ideas (e.g., the possibility of an afterlife) so cross-culturally recurrent? Barrett also covers the indirect implications that cognitive science has for theology, such as human similarities and differences with the animal world, freedom and determinism, and the relationship between minds and bodies. Cognitive Science, Religion, and Theology critically reviews the research on these fascinating questions and discusses the many implications that arise from them. In addition, this short volume also offers suggestions for future research, making it ideal not only for those looking for an overview of the field thus far but also for those seeking a glimpse of where the field might be going in the future. |
brain and cognitive science: Representation in Cognitive Science Nicholas Shea, 2018-10-04 Our thoughts are meaningful. We think about things in the outside world; how can that be so? This is one of the deepest questions in contemporary philosophy. Ever since the 'cognitive revolution', states with meaning-mental representations-have been the key explanatory construct of the cognitive sciences. But there is still no widely accepted theory of how mental representations get their meaning. Powerful new methods in cognitive neuroscience can now reveal information processing in the brain in unprecedented detail. They show how the brain performs complex calculations on neural representations. Drawing on this cutting-edge research, Nicholas Shea uses a series of case studies from the cognitive sciences to develop a naturalistic account of the nature of mental representation. His approach is distinctive in focusing firmly on the 'subpersonal' representations that pervade so much of cognitive science. The diversity and depth of the case studies, illustrated by numerous figures, make this book unlike any previous treatment. It is important reading for philosophers of psychology and philosophers of mind, and of considerable interest to researchers throughout the cognitive sciences. |
brain and cognitive science: Readings in Cognitive Science Allan Collins, Edward E. Smith, 2013-10-02 Readings in Cognitive Science: A Perspective from Psychology and Artificial Intelligence brings together important studies that fall in the intersection between artificial intelligence and cognitive psychology. This book is composed of six chapters, and begins with the complex anatomy and physiology of the human brain. The next chapters deal with the components of cognitive science, such as the semantic memory, similarity and analogy, and learning. These chapters also consider the application of mental models, which represent the domain-specific knowledge needed to understand a dynamic system or natural physical phenomena. The remaining chapters discuss the concept of reasoning, problem solving, planning, vision, and imagery. This book is of value to psychologists, psychiatrists, neurologists, and researchers who are interested in cognition. |
brain and cognitive science: Memory and the Computational Brain C. R. Gallistel, Adam Philip King, 2009-04-20 Memory and the Computational Brain offers a provocative argument that goes to the heart of neuroscience, proposing that the field can and should benefit from the recent advances of cognitive science and the development of information theory over the course of the last several decades. A provocative argument that impacts across the fields of linguistics, cognitive science, and neuroscience, suggesting new perspectives on learning mechanisms in the brain Proposes that the field of neuroscience can and should benefit from the recent advances of cognitive science and the development of information theory Suggests that the architecture of the brain is structured precisely for learning and for memory, and integrates the concept of an addressable read/write memory mechanism into the foundations of neuroscience Based on lectures in the prestigious Blackwell-Maryland Lectures in Language and Cognition, and now significantly reworked and expanded to make it ideal for students and faculty |
brain and cognitive science: Frontiers in Cognitive Neuroscience Stephen Michael Kosslyn, Richard A. Andersen, 1995 This text provides students and researchers with a foundation for examining how brain function gives rise to mental activities such as perception, memory and language. It is grouped into sections that cover attention, vision, auditory and somatosensory systems, memory and higher cortical. |
brain and cognitive science: Our Religious Brains Ralph D. Mecklenburger, 2012 This is a groundbreaking, accessible look at the implications of cognitive science for religion and theology, intended for laypeople. Avoiding neurological jargon and respectful to all faiths, it examines: |
brain and cognitive science: The Entangled Brain Luiz Pessoa, 2022-11-15 A new vision of the brain as a fully integrated, networked organ. Popular neuroscience accounts often focus on specific mind-brain aspects like addiction, cognition, or memory, but The Entangled Brain tackles a much bigger question: What kind of object is the brain? Neuroscientist Luiz Pessoa describes the brain as a highly networked, interconnected system that cannot be neatly decomposed into a set of independent parts. One can’t point to the brain and say, “This is where emotion happens” (or any other mental faculty). Pessoa argues that only by understanding how large-scale neural circuits combine multiple and diverse signals can we truly appreciate how the brain supports the mind. Presenting the brain as an integrated organ and drawing on neuroscience, computation, mathematics, systems theory, and evolution, The Entangled Brain explains how brain functions result from cross-cutting brain processing, not the function of segregated areas. Parts of the brain work in a coordinated fashion across large-scale distributed networks in which disparate parts of the cortex and the subcortex work simultaneously to bring about behaviors. Pessoa intuitively explains the concepts needed to formalize this idea of the brain as a complex system and how to unleash powerful understandings built with “collective computations.” |
The MIT Department of Brain and Cognitive Sciences | Brain and ...
The human brain contains about 86 billion neurons. These cells fire electrical signals that help the brain store memories and send information and commands throughout the brain and the …
About BCS | Brain and Cognitive Sciences
The mission of the MIT Department of Brain and Cognitive Sciences is to reverse engineer the brain in order to understand the mind. To do that we delve deeply into the mechanisms of the …
Academic Program | Brain and Cognitive Sciences
At the heart of MIT is a unique combination of rigorous academics, cutting-edge research, technology, and passionate teaching. These are the principles on which the Department of …
Brain and Cognitive Sciences PhD Program
Graduate students in the Department of Brain and Cognitive Sciences are among the sharpest, most innovative brain scientists to be found anywhere. In a given year the department admits …
Areas of Research | Brain and Cognitive Sciences
Active areas of cognitive research in the Department include language, memory, visual perception and cognition, thinking and reasoning, social cognition, decision making, and cognitive …
Faculty | Brain and Cognitive Sciences - Massachusetts Institute …
Brain & Cognitive Sciences; Harvard-MIT Program in Health Sciences and Technology
News | Brain and Cognitive Sciences - Massachusetts Institute of …
Jun 5, 2025 · MIT study finds an easily measurable brain wave shift may be a universal marker of unconsciousness under anesthesia. June 5, 2025 Finding the right path to a future in cognitive …
Research Scholars Program | Brain and Cognitive Sciences
The ultimate goal of the program is to provide fair and equitable access to top-tier research experiences for individuals who have demonstrated exceptional academic potential in the …
Earl K Miller | Brain and Cognitive Sciences
Nov 23, 2020 · Earl K. Miller is the Picower Professor of Neuroscience at MIT, with appointments in The Picower Institute for Learning and Memory and the Department of Brain and Cognitive …
Program Details | Brain and Cognitive Sciences
In their first two years, students complete six required courses, providing a strong foundation in cellular, molecular, and systems neuroscience, cognitive science, and quantitative methods …
The MIT Department of Brain and Cognitive Sciences | Brain and ...
The human brain contains about 86 billion neurons. These cells fire electrical signals that help the brain store memories and send information and commands throughout the brain and the …
About BCS | Brain and Cognitive Sciences
The mission of the MIT Department of Brain and Cognitive Sciences is to reverse engineer the brain in order to understand the mind. To do that we delve deeply into the mechanisms of the …
Academic Program | Brain and Cognitive Sciences
At the heart of MIT is a unique combination of rigorous academics, cutting-edge research, technology, and passionate teaching. These are the principles on which the Department of …
Brain and Cognitive Sciences PhD Program
Graduate students in the Department of Brain and Cognitive Sciences are among the sharpest, most innovative brain scientists to be found anywhere. In a given year the department admits …
Areas of Research | Brain and Cognitive Sciences
Active areas of cognitive research in the Department include language, memory, visual perception and cognition, thinking and reasoning, social cognition, decision making, and cognitive …
Faculty | Brain and Cognitive Sciences - Massachusetts Institute of ...
Brain & Cognitive Sciences; Harvard-MIT Program in Health Sciences and Technology
News | Brain and Cognitive Sciences - Massachusetts Institute of …
Jun 5, 2025 · MIT study finds an easily measurable brain wave shift may be a universal marker of unconsciousness under anesthesia. June 5, 2025 Finding the right path to a future in cognitive …
Research Scholars Program | Brain and Cognitive Sciences
The ultimate goal of the program is to provide fair and equitable access to top-tier research experiences for individuals who have demonstrated exceptional academic potential in the …
Earl K Miller | Brain and Cognitive Sciences
Nov 23, 2020 · Earl K. Miller is the Picower Professor of Neuroscience at MIT, with appointments in The Picower Institute for Learning and Memory and the Department of Brain and Cognitive …
Program Details | Brain and Cognitive Sciences
In their first two years, students complete six required courses, providing a strong foundation in cellular, molecular, and systems neuroscience, cognitive science, and quantitative methods …