cognitive neuroscience of memory

Memory is perhaps the most extraordinary phenomenon in the natural world. Every person’s brain holds millions of bits of information in long-term storage. This vast memory store includes our extensive vocabulary and knowledge of language; the tremendous and unique variety of facts we’ve amassed; all the skills we’ve learned, from walking and talking to musical and athletic performance; many of the emotions we feel; and the continuous sensations, feelings, and understandings of the world we term consciousness. Without memory there can be no mind as we understand it.

Focusing on cutting-edge research in behavioral science and neuroscience, Memory is a primer of our current scientific understanding of the mechanics of memory and learning. Over the past two decades, memory research has accelerated and we have seen an explosion of new knowledge about the brain. For example, there now exists a wide-ranging and successful applied science devoted exclusively to the study of memory that has yielded better procedures for eliciting valid recollections in legal settings and improved the diagnosis and treatment of memory disorders.

Everyone fascinated by the scope and power of the human brain will find this book unforgettable.

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Combining insights from both cognitive neuroscience and molecular biology, two of the world’s leading experts address memory from molecules and cells to brain systems and cognition. What is memory and where in the brain is it stored? How is memory storage accomplished? This book touches on these questions and many more, showing how the recent convergence of psychology and biology has resulted in an exciting new synthesis of knowledge about learning and remembering. Memory: From Mind to Molecules is an ideal primer for courses on learning and memory or for general readers who are interested in discovering what is currently known about one of the basic aspects of human existence.

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The strengths and weaknesses of human memory have fascinated people for hundreds of years, so it is not surprising that memory research has remained one of the most flourishing areas in science. During the last decade, however, a genuine science of memory has emerged, resulting in research and theories that are rich, complex, and far reaching in their implications. Endel Tulving and Fergus Craik, both leaders in memory research, have created this highly accessible guide to their field. In each chapter, eminent researchers provide insights into their particular areas of expertise in memory research. Together, the chapters in this handbook lay out the theories and presents the evidence on which they are based, highlights the important new discoveries, and defines their consequences for professionals and students in psychology, neuroscience, clinical medicine, law, and engineering.

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Memory, attention, and decision-making are three major areas of cognitive neuroscience. They are, however, frequently studied in isolation, using a range of models to understand them. This book brings a unified approach to understanding these three processes. It shows how these fundamental functions for cognitive neuroscience can be understood in a common and unifying computational neuroscience framework. This framework links empirical research on brain function from neurophysiology, function neuroimaging, and the effects of brain damage, to a description of how neural networks in the brain implement these functions using a set of common principles. The book describes the principles of operation of these networks, and how they could implement such important functions as memory, attention, and decision-making.

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Episodic memory proves essential for daily function, allowing us to remember where we parked the car, what time we walked the dog, or what a friend said earlier. In How We Remember, Michael Hasselmo draws on recent developments in neuroscience to present a new model describing the brain mechanisms for encoding and remembering such episodes as spatiotemporal trajectories. He reviews physiological breakthroughs on the regions implicated in episodic memory, including the discovery of grid cells, the cellular mechanisms of persistent spiking and resonant frequency, and the topographic coding of space and time. These discoveries inspire a theory for understanding the encoding and retrieval of episodic memory not just as discrete snapshots but as a dynamic replay of spatiotemporal trajectories, allowing us to “retrace our steps” to recover a memory. On the behavioral level, Hasselmo emphasizes the capacity to encode and retrieve spatiotemporal trajectories from personal experience, including the time and location of individual events. On the biological level, he focuses on the dynamical properties of neurons and networks in the brain regions mediating episodic memory, addressing the role of neural oscillations and the effect of drugs on episodic memory. In the main text of the book, he presents the model in narrative form, accessible to scholars and advanced undergraduates in many fields. In the appendix, he presents the material in a more quantitative style, providing mathematical descriptions appropriate for advanced undergraduates and graduate students in neuroscience or engineering.

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