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  • Theoretical Neuroscience : Understanding Cognition
    Theoretical Neuroscience : Understanding Cognition

    This textbook is an introduction to Systems and Theoretical/Computational Neuroscience, with a particular emphasis on cognition.It consists of three parts: Part I covers fundamental concepts and mathematical models in computational neuroscience, along with cutting-edge topics.Part II explores the building blocks of cognition, including working memory (how the brain maintains and manipulates information "online" without external input), decision making (how choices are made among multiple options under conditions of uncertainty and risk) and behavioral flexibility (how we direct attention and control actions).Part III is dedicated to frontier research, covering models of large-scale multi-regional brain systems, Computational Psychiatry and the interface with Artificial Intelligence.The author highlights the perspective of neural circuits as dynamical systems, and emphasizes a cross-level mechanistic understanding of the brain and mind, from genes and cell types to collective neural populations and behavior.Overall, this textbook provides an opportunity for readers to become well versed in this highly interdisciplinary field of the twenty-first century. Key FeaturesRooted in the most recent advances in experimental studies of basic cognitive functionsIntroduces neurobiological and mathematical concepts so that the book is self-containedHeavily illustrated with high-quality figures that help to illuminate neurobiological concepts, present experimental findings and explain mathematical modelsConcludes with a list of core cognitive behavior tasks, ten take-home messages and three open questions for future researchComputer model codes are available via GitHub for hands-on practice

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  • Theoretical Neuroscience : Understanding Cognition
    Theoretical Neuroscience : Understanding Cognition

    This textbook is an introduction to Systems and Theoretical/Computational Neuroscience, with a particular emphasis on cognition.It consists of three parts: Part I covers fundamental concepts and mathematical models in computational neuroscience, along with cutting-edge topics.Part II explores the building blocks of cognition, including working memory (how the brain maintains and manipulates information "online" without external input), decision making (how choices are made among multiple options under conditions of uncertainty and risk) and behavioral flexibility (how we direct attention and control actions).Part III is dedicated to frontier research, covering models of large-scale multi-regional brain systems, Computational Psychiatry and the interface with Artificial Intelligence.The author highlights the perspective of neural circuits as dynamical systems, and emphasizes a cross-level mechanistic understanding of the brain and mind, from genes and cell types to collective neural populations and behavior.Overall, this textbook provides an opportunity for readers to become well versed in this highly interdisciplinary field of the twenty-first century. Key FeaturesRooted in the most recent advances in experimental studies of basic cognitive functionsIntroduces neurobiological and mathematical concepts so that the book is self-containedHeavily illustrated with high-quality figures that help to illuminate neurobiological concepts, present experimental findings and explain mathematical modelsConcludes with a list of core cognitive behavior tasks, ten take-home messages and three open questions for future researchComputer model codes are available via GitHub for hands-on practice

    Price: 210.00 £ | Shipping*: 0.00 £
  • The Neuroscience of Bach’s Music : Perception, Action, and Cognition Effects on the Brain
    The Neuroscience of Bach’s Music : Perception, Action, and Cognition Effects on the Brain

    The Neuroscience of Bach’s Music: Perception, Action, and Cognition Effects on the Brain is a comprehensive study of Johann Sebastian Bach’s music through the lens of neuroscience, examining neuroscience using Bach’s music as a tool.This book synthesizes cognitive neuroscience, music theory, and musicology to provide insights into human cognition and perception.It also explores how a neuroscience perspective can improve listening and performing experiences for Bach’s music.Written by a physician-neuroscientist recognized for scholarly articles on Bach’s music, this book uses specific examples to explore neuroscience across Bach’s compositions. The book is structured to discuss the brain’s action, perception, and cognition as connected to specific Bach concertos, tones, notes, and performances.Two guest contributors provide insight into exact mathematical, or topologic, and music theoretic aspects of Bach’s music with implications for cognitive neuroscience.

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  • Mind, Cognition, and Neuroscience : A Philosophical Introduction
    Mind, Cognition, and Neuroscience : A Philosophical Introduction

    This carefully designed, multi-authored textbook covers a broad range of theoretical issues in cognitive science, psychology, and neuroscience.With accessible language, a uniform structure, and many pedagogical features, Mind, Cognition, and Neuroscience: A Philosophical Introdution is the best high-level overview of this area for an interdisciplinary readership of students.Written specifically for this volume by experts in their fields who are also experienced teachers, the book’s thirty chapters are organized into the following parts:I.Background KnowledgeII. Classical DebatesIII. ConsciousnessIV. Crossing BoundariesEach chapter starts with relevant key words and definitions and a chapter overview, then presents historical coverage of the topic, explains and analyzes contemporary debates, and ends with a sketch of cutting edge research.A list of suggested readings and helpful discussion topics conclude each chapter.This uniform, student-friendly design makes it possible to teach a cohort of both philosophy and interdisciplinary students without assuming prior understanding of philosophical concepts, cognitive science, or neuroscience. Key Features:Synthesizes the now decades-long explosion of scientifically informed philosophical research in the study of mind. Expands on the offerings of other textbooks by including chapters on language, concepts and non-conceptual content, and animal cognition. Offers the same structure in each chapter, moving the reader through an overview, historical coverage, contemporary debates, and finally cutting-edge research. Packed with pedagogical features, like defined Key Terms, Suggested Readings, and Discussion Questions for each chapter, as well as a General Glossary. Provides readers with clear, chapter-long introductions to Cognitive Neuroscience, Molecular and Cellular Cognition, Experimental Methods in Cognitive Neuroscience, Philosophy of Mind, Philosophy of Science, Metaphysical Issues, and Epistemic Issues.

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  • Can stepping stones promote cognition?

    Yes, stepping stones can promote cognition by engaging both the body and mind. When individuals navigate through stepping stones, they are required to plan their movements, make decisions, and coordinate their actions, which can help improve cognitive functions such as problem-solving, spatial awareness, and memory. Additionally, stepping stones can provide sensory stimulation and feedback, further enhancing cognitive development. Overall, incorporating stepping stones into activities or environments can be a fun and effective way to promote cognitive skills.

  • Can stackable stones promote cognition?

    Stackable stones can potentially promote cognition by engaging the brain in problem-solving tasks, improving spatial awareness, and enhancing hand-eye coordination. The act of stacking stones requires focus, concentration, and planning, which can help stimulate cognitive functions. Additionally, the tactile experience of handling the stones can provide sensory feedback that may benefit cognitive development. Overall, incorporating stackable stones into activities or games can be a fun and beneficial way to support cognitive skills.

  • Where can I study Neuroscience?

    You can study Neuroscience at many universities around the world, including but not limited to Harvard University, Stanford University, University College London, and the University of California, Berkeley. These universities offer undergraduate and graduate programs in Neuroscience, allowing students to explore the complexities of the brain and nervous system through a variety of courses and research opportunities. Additionally, many institutions offer online courses and programs in Neuroscience for those who prefer a more flexible learning environment.

  • How can one study neuroscience?

    Studying neuroscience typically involves pursuing a formal education in the field. This can include obtaining a bachelor's degree in neuroscience or a related field, followed by a graduate degree such as a master's or Ph.D. in neuroscience. Additionally, gaining hands-on research experience through internships or working in a neuroscience lab can provide valuable practical skills. Keeping up-to-date with the latest research in neuroscience through scientific journals, conferences, and online resources is also important for staying informed in the field.

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  • Mind, Cognition, and Neuroscience : A Philosophical Introduction
    Mind, Cognition, and Neuroscience : A Philosophical Introduction

    This carefully designed, multi-authored textbook covers a broad range of theoretical issues in cognitive science, psychology, and neuroscience.With accessible language, a uniform structure, and many pedagogical features, Mind, Cognition, and Neuroscience: A Philosophical Introdution is the best high-level overview of this area for an interdisciplinary readership of students.Written specifically for this volume by experts in their fields who are also experienced teachers, the book’s thirty chapters are organized into the following parts:I.Background KnowledgeII. Classical DebatesIII. ConsciousnessIV. Crossing BoundariesEach chapter starts with relevant key words and definitions and a chapter overview, then presents historical coverage of the topic, explains and analyzes contemporary debates, and ends with a sketch of cutting edge research.A list of suggested readings and helpful discussion topics conclude each chapter.This uniform, student-friendly design makes it possible to teach a cohort of both philosophy and interdisciplinary students without assuming prior understanding of philosophical concepts, cognitive science, or neuroscience. Key Features:Synthesizes the now decades-long explosion of scientifically informed philosophical research in the study of mind. Expands on the offerings of other textbooks by including chapters on language, concepts and non-conceptual content, and animal cognition. Offers the same structure in each chapter, moving the reader through an overview, historical coverage, contemporary debates, and finally cutting-edge research. Packed with pedagogical features, like defined Key Terms, Suggested Readings, and Discussion Questions for each chapter, as well as a General Glossary. Provides readers with clear, chapter-long introductions to Cognitive Neuroscience, Molecular and Cellular Cognition, Experimental Methods in Cognitive Neuroscience, Philosophy of Mind, Philosophy of Science, Metaphysical Issues, and Epistemic Issues.

    Price: 39.99 £ | Shipping*: 0.00 £
  • From Neuron to Cognition via Computational Neuroscience
    From Neuron to Cognition via Computational Neuroscience

    A comprehensive, integrated, and accessible textbook presenting core neuroscientific topics from a computational perspective, tracing a path from cells and circuits to behavior and cognition. This textbook presents a wide range of subjects in neuroscience from a computational perspective.It offers a comprehensive, integrated introduction to core topics, using computational tools to trace a path from neurons and circuits to behavior and cognition.Moreover, the chapters show how computational neuroscience-methods for modeling the causal interactions underlying neural systems-complements empirical research in advancing the understanding of brain and behavior.The chapters-all by leaders in the field, and carefully integrated by the editors-cover such subjects as action and motor control; neuroplasticity, neuromodulation, and reinforcement learning; vision; and language-the core of human cognition. The book can be used for advanced undergraduate or graduate level courses.It presents all necessary background in neuroscience beyond basic facts about neurons and synapses and general ideas about the structure and function of the human brain.Students should be familiar with differential equations and probability theory, and be able to pick up the basics of programming in MATLAB and/or Python.Slides, exercises, and other ancillary materials are freely available online, and many of the models described in the chapters are documented in the brain operation database, BODB (which is also described in a book chapter). ContributorsMichael A. Arbib, Joseph Ayers, James Bednar, Andrej Bicanski, James J.Bonaiuto, Nicolas Brunel, Jean-Marie Cabelguen, Carmen Canavier, Angelo Cangelosi, Richard P.Cooper, Carlos R. Cortes, Nathaniel Daw, Paul Dean, Peter Ford Dominey, Pierre Enel, Jean-Marc Fellous, Stefano Fusi, Wulfram Gerstner, Frank Grasso, Jacqueline A.Griego, Ziad M. Hafed, Michael E. Hasselmo, Auke Ijspeert, Stephanie Jones, Daniel Kersten, Jeremie Knuesel, Owen Lewis, William W.Lytton, Tomaso Poggio, John Porrill, Tony J. Prescott, John Rinzel, Edmund Rolls, Jonathan Rubin, Nicolas Schweighofer, Mohamed A.Sherif, Malle A. Tagamets, Paul F. M. J. Verschure, Nathan Vierling-Claasen, Xiao-Jing Wang, Christopher Williams, Ransom Winder, Alan L.Yuille

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  • Hacking Neuroplasticity : How AI Can Help Your Healthy Aging Brain
    Hacking Neuroplasticity : How AI Can Help Your Healthy Aging Brain

    Neuroplasticity is the ability of neural networks in the brain to change through growth and reorganization.It is when the brain is rewired to function in some way that differs from how it previously functioned.How does aging affect neuroplasticity? As we grow older, plasticity decreases to stabilize what we have already learned.What influence does the aging process have on memory?Forgetfulness can be a normal part of aging. As people get older, changes occur in all parts of the body, including the brain.As a result, some people may notice that it takes longer to learn new things, they don’t remember information as well as they did, or they lose things like their glasses.This book on evolving neuroscience is unique in its lifespan focus on driving neuroplasticity in a positive direction to influence the Flynn effect of increasing human intelligence as the preferred way to prevent, delay onset, and/or reverse dementia.It considers potential impact from the first moments of life through end of life.It includes intergenerational activities. Its inclusion of centenarians and supercentenarians provides examples of "Super Agers" who have maintained and/or increased neurocognitive capacity, often with a health span that approximated their vigorous longevity.It discusses the use of the artificial intelligence (AI) revolution to refine, personalize, and broaden our global reach to enhance the Flynn effect as the preferred effort to improve global statistics on neurocognitive functioning at any age.Driving neuroplasticity in a positive direction at all ages is urgent.With this book’s focus on evidence-based interventions at any age which can have physical, emotional, neurobiological, neurochemical, immunological, and social health benefits, it is a unique overview and application of evolving neuroscience to address the UN/WHO Decade of Action for Healthy Ageing for All.

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  • Neuroscience: Exploring The Brain, Enhanced Edition
    Neuroscience: Exploring The Brain, Enhanced Edition

    Acclaimed for its clear, friendly style, excellent illustrations, leading author team, and compelling theme of exploration, Neuroscience: Exploring the Brain, 4e takes a fresh, contemporary approach to the study of neuroscience, emphasizing the biological basis of behavior.The authors’ passion for the dynamic field of neuroscience is evident on every page, engaging students and helping them master the material. In just a few years, the field of neuroscience has been transformed by exciting new technologies and an explosion of knowledge about the brain.The human genome has been sequenced, sophisticated new methods have been developed for genetic engineering, and new methods have been introduced to enable visualization and stimulation of specific types of nerve cells and connections in the brain.The new Fourth Edition has been fully updated to reflect these and other rapid advances in the field, while honoring its commitment to be student-friendly with striking new illustrations, additional animations, and an unparalleled array of online resources.

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  • What are connectivity issues?

    Connectivity issues refer to problems that arise when devices or systems are unable to establish a connection with each other. This can be due to various reasons such as network outages, hardware malfunctions, or configuration errors. Connectivity issues can result in slow or unreliable internet connections, dropped calls, or inability to access shared resources. Resolving connectivity issues often involves troubleshooting the network, checking hardware components, and adjusting settings to ensure a stable connection.

  • What is Immanuel Kant's theory on human cognition?

    Immanuel Kant's theory on human cognition is based on the idea that our knowledge of the world is not solely derived from sensory experience, but is also shaped by the mind's innate structures and categories. He argued that the mind actively organizes and interprets sensory input through concepts such as space, time, and causality. Kant believed that these innate structures, which he called "a priori" categories, are necessary for us to make sense of the world and form coherent knowledge. This theory of cognition is central to Kant's philosophy and has had a significant influence on the development of modern psychology and cognitive science.

  • 'By which impulses is cognition promoted in kindergarten?'

    Cognition is promoted in kindergarten through various impulses such as sensory experiences, hands-on activities, and social interactions. Sensory experiences, such as exploring different textures and materials, help children develop their cognitive abilities by engaging their senses and making connections between their experiences and the world around them. Hands-on activities, such as puzzles, building blocks, and art projects, encourage children to use their problem-solving skills and think critically. Social interactions with peers and teachers also promote cognition by providing opportunities for children to communicate, collaborate, and learn from each other. Overall, these impulses help to stimulate children's cognitive development and lay the foundation for future learning.

  • What can be done with neuroscience?

    Neuroscience can be used to better understand how the brain works, leading to advancements in treating neurological and psychiatric disorders. It can also help in developing new technologies and therapies to improve brain function and overall well-being. Additionally, neuroscience research can provide insights into how we learn, make decisions, and perceive the world around us, leading to potential applications in education, marketing, and other fields. Overall, neuroscience has the potential to revolutionize our understanding of the brain and human behavior, with far-reaching implications for various aspects of society.

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