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Category-specific knowledge disorders are among the most intriguing and perplexing syndromes in cognitive neuropsychology. The past decade has witnessed increased interest in these disorders, due largely to a heightened appreciation of the profound implications that an understanding of concept representation has for such diverse topics as object recognition, the organisation of the lexicon, and storage of long-term memories. Until recently, information about the representation of concepts was limited to findings from patients with brain injury and disease. This state of affairs has now changed with the advent and wide-spread availability of functional imaging for studying cognition in the normal human brain. The purpose of this special issue is to provide a forum for new findings and critical, theoretical analyses of existing data from patient and functional brain imaging studies. The contributions, all from major investigators in the field, range from studies of specific object categories such as animals, tools, fruit and vegetables, and faces, to the more general domains of number processing, social interaction, and mechanical knowledge. A unifying theme of these papers is the extent to which the findings can be best understood within the context of models that posit an innate, domain-specific organisation, those that appeal to an organisation by sensory- and motor-based features and properties, and those that propose an undifferentiated, distributed neural organisation.
Neurolinguistics is a young and highly interdisciplinary field, with influences from psycholinguistics, psychology, aphasiology, and (cognitive) neuroscience, as well as other fields. Neurolinguistics, like psycholinguistics, covers aspects of language processing; but unlike psycholinguistics, it draws on data from patients with damage to language processing capacities, or the use of modern neuroimaging technologies such as fMRI, TMS, or both. The burgeoning interest in neurolinguistics reflects that an understanding of the neural bases of this data can inform more biologically plausible models of the human capacity for language. The Oxford Handbook of Neurolinguistics provides concise overviews of this rapidly-growing field, and engages a broad audience with an interest in the neurobiology of language. The chapters do not attempt to provide exhaustive coverage, but rather present discussions of prominent questions posed by given topics. The volume opens with essential methodological chapters: Section I, Methods, covers the key techniques and technologies used to study the neurobiology of language today, with chapters structured along the basic divisions of the field. Section II addresses the neurobiology of language acquisition during healthy development and in response to challenges presented by congenital and acquired conditions. Section III covers the many facets of our articulate brain, or speech-language pathology, and the capacity for language production-written, spoken, and signed. Questions regarding how the brain comprehends meaning, including emotions at word and discourse levels, are addressed in Section IV. Finally, Section V reaches into broader territory, characterizing and contextualizing the neurobiology of language with respect to more fundamental neuroanatomical mechanisms and general cognitive domains.
The brain ... There is no other part of the human anatomy that is so intriguing. How does it develop and function and why does it sometimes, tragically, degenerate? The answers are complex. In Discovering the Brain, science writer Sandra Ackerman cuts through the complexity to bring this vital topic to the public. The 1990s were declared the "Decade of the Brain" by former President Bush, and the neuroscience community responded with a host of new investigations and conferences. Discovering the Brain is based on the Institute of Medicine conference, Decade of the Brain: Frontiers in Neuroscience and Brain Research. Discovering the Brain is a "field guide" to the brainâ€"an easy-to-read discussion of the brain's physical structure and where functions such as language and music appreciation lie. Ackerman examines: How electrical and chemical signals are conveyed in the brain. The mechanisms by which we see, hear, think, and pay attentionâ€"and how a "gut feeling" actually originates in the brain. Learning and memory retention, including parallels to computer memory and what they might tell us about our own mental capacity. Development of the brain throughout the life span, with a look at the aging brain. Ackerman provides an enlightening chapter on the connection between the brain's physical condition and various mental disorders and notes what progress can realistically be made toward the prevention and treatment of stroke and other ailments. Finally, she explores the potential for major advances during the "Decade of the Brain," with a look at medical imaging techniquesâ€"what various technologies can and cannot tell usâ€"and how the public and private sectors can contribute to continued advances in neuroscience. This highly readable volume will provide the public and policymakersâ€"and many scientists as wellâ€"with a helpful guide to understanding the many discoveries that are sure to be announced throughout the "Decade of the Brain."
A mechanistic theory of the representation and use of semantic knowledge that uses distributed connectionist networks as a starting point for a psychological theory of semantic cognition.
This book aims to provide converging evidence as to how knowledge about different categories is represented in the brain, and how this knowledge develops.
For most native speakers of English, the meanings of ordinary words like "blue," "cup," "stumble," and "carve" seem quite natural and self-evident. It turns out, however, that they are far from universal, as shown by recent research in the discipline known as semantic typology. To be sure, the roughly 6,500 languages around the world do have many similarities in the sorts of concepts they encode. But they also vary greatly in numerous ways, such as how they partition particular conceptual domains, how they map those domains onto syntactic categories, which distinctions they force speakers to habitually attend to, and how deeply they weave certain notions into the fabric of their grammar. Although these insights from semantic typology have had a major impact on the field of psycholinguistics, they have been mostly neglected by the branch of cognitive neuroscience that studies how concepts are represented, organized, and processed in our brains. In Concepts in the Brain, David Kemmerer exposes this oversight and demonstrates its significance. He argues that as research on the neural substrates of semantic knowledge moves forward, it should, to the extent possible, expand its purview to embrace the broad spectrum of cross-linguistic variation in the lexical and grammatical representation of meaning. Otherwise, it will never be able to achieve a truly comprehensive, pan-human account of the cortical underpinnings of concepts. Richly illustrated and written in an accessible interdisciplinary style, the book begins by elaborating the different perspectives on concepts that currently exist in the parallel fields of semantic typology and cognitive neuroscience. It then shows how a synthesis of these approaches can lead to a more unified and inclusive understanding of several domains of concrete meaning--specifically, objects, actions, and spatial relations. Finally, it explores a number of intriguing and controversial issues involving the interplay between language, cognition, and consciousness.
New in paperback-- A transformative book on the way we think about the nature of concepts and the relations between language and thought.
To understand the mind, we need to draw equally on the fields of cognitive science and neuroscience. But these two fields have very separate intellectual roots, and very different styles. So how can these two be reconciled in order to develop a full understanding of the mind and brain.This is the focus of this landmark new book.
Is there a right way to study how the brain works? Following the empiricist's tradition, the most common approach involves the study of neural reactions to stimuli presented by an experimenter. This 'outside-in' method fueled a generation of brain research and now must confront hidden assumptions about causation and concepts that may not hold neatly for systems that act and react. György Buzsáki's The Brain from Inside Out examines why the outside-in framework for understanding brain function has become stagnant and points to new directions for understanding neural function. Building upon the success of 2011's Rhythms of the Brain, Professor Buzsáki presents the brain as a foretelling device that interacts with its environment through action and the examination of action's consequence. Consider that our brains are initially filled with nonsense patterns, all of which are gibberish until grounded by action-based interactions. By matching these nonsense "words" to the outcomes of action, they acquire meaning. Once its circuits are "calibrated" by action and experience, the brain can disengage from its sensors and actuators, and examine "what happens if" scenarios by peeking into its own computation, a process that we refer to as cognition. The Brain from Inside Out explains why our brain is not an information-absorbing coding device, as it is often portrayed, but a venture-seeking explorer constantly controlling the body to test hypotheses. Our brain does not process information: it creates it.
Considering how computational properties of the brain inform cognitive functions, this book presents a unique conceptual introduction to cognitive neuroscience. This essential guide explores the complex relationship between the mind and the brain, building upon the authors' extensive research in neural information processing and cognitive neuroscience to provide a comprehensive overview of the field. Rather than providing detailed descriptions of different cognitive processes, Functions of the Brain: A Conceptual Approach to Cognitive Neuroscience focuses on how the brain functions using specific processes. Beginning with a brief history of early cognitive neuroscience research, Kok goes on to discuss how information is represented and processed in the brain before considering the underlying functional organization of larger-scale brain networks involved in human cognition. The second half of the book addresses the architecture of important overlapping areas of cognition, including attention and consciousness, perception and action, and memory and emotion. This book is essential reading for upper-level undergraduates studying Cognitive Neuroscience, particularly those taking a more conceptual approach to the topic.