Lynn Robertson has been studying how brain lesions affect spatial abilities for over 20 years, and her work has revealed some surprising facts about space and its role in visual perception. In this book she combines evidence collected in her laboratory with findings from others to explore the cognitive and neural basis of spatial representations and their contributions to spatial awareness, object formation, attention, and binding.
Knowing where things are seems effortless. Yet our brains devote tremendous computational power to figuring out the simplest details about spatial relationships. Going to the grocery store or finding our cell phone requires sleuthing and coordination across different sensory and motor domains. Making Space traces this mental detective work to explain how the brain creates our sense of location. But it goes further, to make the case that spatial processing permeates all our cognitive abilities, and that the brain’s systems for thinking about space may be the systems of thought itself. Our senses measure energy in the form of light, sound, and pressure on the skin, and our brains evaluate these measurements to make inferences about objects and boundaries. Jennifer Groh describes how eyes detect electromagnetic radiation, how the brain can locate sounds by measuring differences of less than one one-thousandth of a second in how long they take to reach each ear, and how the ear’s balance organs help us monitor body posture and movement. The brain synthesizes all this neural information so that we can navigate three-dimensional space. But the brain’s work doesn’t end there. Spatial representations do double duty in aiding memory and reasoning. This is why it is harder to remember how to get somewhere if someone else is driving, and why, if we set out to do something and forget what it was, returning to the place we started can jog our memory. In making space the brain uses powers we did not know we have.
A bestselling author, neuroscientist, and computer engineer unveils a theory of intelligence that will revolutionize our understanding of the brain and the future of AI. For all of neuroscience's advances, we've made little progress on its biggest question: How do simple cells in the brain create intelligence? Jeff Hawkins and his team discovered that the brain uses maplike structures to build a model of the world—not just one model, but hundreds of thousands of models of everything we know. This discovery allows Hawkins to answer important questions about how we perceive the world, why we have a sense of self, and the origin of high-level thought. A Thousand Brains heralds a revolution in the understanding of intelligence. It is a big-think book, in every sense of the word. One of the Financial Times' Best Books of 2021 One of Bill Gates' Five Favorite Books of 2021
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 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."
An eminent psychologist offers a major new theory of human cognition: movement, not language, is the foundation of thought When we try to think about how we think, we can't help but think of words. Indeed, some have called language the stuff of thought. But pictures are remembered far better than words, and describing faces, scenes, and events defies words. Anytime you take a shortcut or play chess or basketball or rearrange your furniture in your mind, you've done something remarkable: abstract thinking without words. In Mind in Motion, psychologist Barbara Tversky shows that spatial cognition isn't just a peripheral aspect of thought, but its very foundation, enabling us to draw meaning from our bodies and their actions in the world. Our actions in real space get turned into mental actions on thought, often spouting spontaneously from our bodies as gestures. Spatial thinking underlies creating and using maps, assembling furniture, devising football strategies, designing airports, understanding the flow of people, traffic, water, and ideas. Spatial thinking even underlies the structure and meaning of language: why we say we push ideas forward or tear them apart, why we're feeling up or have grown far apart. Like Thinking, Fast and Slow before it, Mind in Motion gives us a new way to think about how--and where--thinking takes place.
The modern materialist approach to life has conspicuously failed to explain such central mind-related features of our world as consciousness, intentionality, meaning, and value. This failure to account for something so integral to nature as mind, argues philosopher Thomas Nagel, is a major problem, threatening to unravel the entire naturalistic world picture, extending to biology, evolutionary theory, and cosmology. Since minds are features of biological systems that have developed through evolution, the standard materialist version of evolutionary biology is fundamentally incomplete. And the cosmological history that led to the origin of life and the coming into existence of the conditions for evolution cannot be a merely materialist history, either. An adequate conception of nature would have to explain the appearance in the universe of materially irreducible conscious minds, as such. Nagel's skepticism is not based on religious belief or on a belief in any definite alternative. In Mind and Cosmos, he does suggest that if the materialist account is wrong, then principles of a different kind may also be at work in the history of nature, principles of the growth of order that are in their logical form teleological rather than mechanistic. In spite of the great achievements of the physical sciences, reductive materialism is a world view ripe for displacement. Nagel shows that to recognize its limits is the first step in looking for alternatives, or at least in being open to their possibility.
The Brain-Friendly Museum proposes an innovative approach to experiencing and enjoying the museum environment in new ways, based on the systematic application of cognitive psychology and neuroscience. Providing practical guidance on navigating and thinking about museums in different ways, the book is designed to help develop more fulfilling visitor experiences. It explores our cognitive processes and emotions, and how they can be used to engage with and enjoy the museum environment, regardless of the visitor’s background, language, or culture. The book considers core cognitive processes, including memory, attention, and perception, and how they can successfully be applied to the museum environment, for example, in creating more effective displays. Using evidence-based examples throughout, the book advocates for a wellbeing approach improving visitor experience, and one that is grounded in research from psychology and neuroscience. This book is a must-read for all museum practitioners and psychologists interested in the relationship between cultural heritage, psychology, and neuroscience. It will also be of great interest to art therapists, neuroscientists, university students, museum stakeholders, and museum lovers.
The Present Book Deals With The Brain-Mind, Based On The Findings Of Studies Using Functional Neuroimaging, Cognitive Electrophysiological And Clinical Neuropsychological Techniques. The Meta-Analysis Draws On The Emergence Of The Mind From The Brain And The Control Of Mental Activities By The Neural Systems. Nevertheless, Interpretations That Determine The Contents Of Processing And Their Qualitative Judgements Are Not Limited By The Brain Or The Realities Of The World. It Is Possible To Create A Subjective World, Which Is Not In Conformity With Objective Realities. The Environment Controls The Brain And The Brain Has Learnt To Internalize Such Controls And Selectively Use Them For Dealing With Various Environmental Exigencies. The Human Brain Has Further Learnt To Self-Define Purposes, Goals, Self-Programme And Perform Actions For Achieving The Self-Defined Goals, And Has Become Increasingly Independent Of The Environmental Controls.Development Of Language Skills In The Brain Has Led To Extensive Verbal Transcoding Of Perceptions, Responses, Actions, Emotions, And Experiences, As Well As To The Creation Of New Relationships At The Conceptual And Reality Levels. The Same Neural Functional Systems Monitor The Process Of Creation Of Thoughts, The Mental Imageries, And Their Contents, Which In Turn Has Led To The Emergence Of Awareness Of The Processes And Contents Of The Transcoding. Experience Is A Product Of Sensory-Motor Events, Emotions, Their Cognitive Interpretations, And Awareness. Despite The Possibilities And The Presence Of Erroneous As Well As Out Of Reality Interpretations, Experience Offers The Highest Levels Of Personal Contact With Reality, Which Makes Man Crave And Explore For It.The Present Book Is Thus A Comprehensive Study On Brain-Mind And It Is Hoped That It Will Prove Useful And Interesting To The Students, Researchers, And Teachers Of Neuropsychology. The Detailed References Included In The Book Will Facilitate Pursuing The Studies Further. Its Language And Approach To The Subject Matter Is Reader-Friendly And Easily Comprehensible.
