Books about Neuroscientists from Amazon.com

No organization can survive without iconoclasts -- innovators who single-handedly upturn conventional wisdom and manage to achieve what so many others deem impossible.



Though indispensable, true iconoclasts are few and far between. In Iconoclast, neuroscientist Gregory Berns explains why. He explores the constraints the human brain places on innovative thinking, including fear of failure, the urge to conform, and the tendency to interpret sensory information in familiar ways.



Through vivid accounts of successful innovators ranging from glass artist Dale Chihuly to physicist Richard Feynman to country/rock trio the Dixie Chicks, Berns reveals the inner workings of the iconoclast's mind with remarkable clarity. Each engaging chapter goes on to describe practical actions we can each take to understand and unleash our own potential to think differently -- such as seeking out new environments, novel experiences, and first-time acquaintances.



Packed with engaging stories, science-based insights, potent practices, and examples from a startling array of disciplines, this engaging book will help you understand how iconoclasts think and equip you to begin thinking more like an iconoclast yourself..
Price: $18.72 [Notify me when price goes down.]

In this technology-driven age, it's tempting to believe that science can solve every mystery After all, science has cured countless diseases and even sent humans into space. But as Jonah Lehrer argues in this sparkling debut, science is not the only path to knowledge. In fact, when it comes to understanding the brain, art got there first.

Taking a group of artists — a painter, a poet, a chef, a composer, and a handful of novelists — Lehrer shows how each one discovered an essential truth about the mind that science is only now rediscovering. We learn, for example, how Proust first revealed the fallibility of memory; how George Eliot discovered the brain's malleability; how the French chef Escoffier discovered umami (the fifth taste); how Cézanne worked out the subtleties of vision; and how Gertrude Stein exposed the deep structure of language — a full half-century before the work of Noam Chomsky and other linguists. It's the ultimate tale of art trumping science.

More broadly, Lehrer shows that there's a cost to reducing everything to atoms and acronyms and genes. Measurement is not the same as understanding, and art knows this better than science does. An ingenious blend of biography, criticism, and first-rate science writing, Proust Was a Neuroscientist urges science and art to listen more closely to each other, for willing minds can combine the best of both, to brilliant effect..
Price: $7.90 [Notify me when price goes down.]

"I had never planned to become a savanna baboon when I grew up; instead, I had always assumed I would become a mountain gorilla," writes Robert Sapolsky in this witty and riveting chronicle of a scientist's coming-of-age in remote Africa.

An exhilarating account of Sapolsky's twenty-one-year study of a troop of rambunctious baboons in Kenya, A Primate's Memoir interweaves serious scientific observations with wry commentary about the challenges and pleasures of living in the wilds of the Serengeti -- for man and beast alike. Over two decades, Sapolsky survives culinary atrocities, gunpoint encounters, and a surreal kidnapping, while witnessing the encroachment of the tourist mentality on the farthest vestiges of unspoiled Africa. As he conducts unprecedented physiological research on wild primates, he becomes evermore enamored of his subjects -- unique and compelling characters in their own right -- and he returns to them summer after summer, until tragedy finally prevents him.

By turns hilarious and poignant, A Primate's Memoir is a magnum opus from one of our foremost science writers..
Price: $3.19 [Notify me when price goes down.]

Do religious experiences come from God, or are they merely the random firing of neurons in the brain? Drawing on his own research with Carmelite nuns, neuroscientist Mario Beauregard shows that genuine, life-changing spiritual events can be documented. He offers compelling evidence that religious experiences have a nonmaterial origin, making a convincing case for what many in scientific fields are loath to consider—that it is God who creates our spiritual experiences, not the brain.

Beauregard and O'Leary explore recent attempts to locate a "God gene" in some of us and claims that our brains are "hardwired" for religion—even the strange case of one neuroscientist who allegedly invented an electromagnetic "God helmet" that could produce a mystical experience in anyone who wore it. The authors argue that these attempts are misguided and narrow-minded, because they reduce spiritual experiences to material phenomena.

Many scientists ignore hard evidence that challenges their materialistic prejudice, clinging to the limited view that our experiences are explainable only by material causes, in the obstinate conviction that the physical world is the only reality. But scientific materialism is at a loss to explain irrefutable accounts of mind over matter, of intuition, willpower, and leaps of faith, of the "placebo effect" in medicine, of near-death experiences on the operating table, and of psychic premonitions of a loved one in crisis, to say nothing of the occasional sense of oneness with nature and mystical experiences in meditation or prayer. Traditional science explains away these and other occurrences as delusions or misunderstandings, but by exploring the latest neurological research on phenomena such as these, The Spiritual Brain gets to their real source.

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Price: $9.99 [Notify me when price goes down.]

Matlab is the accepted standard for scientific computing, used globally in virtually all Neuroscience and Cognitive Psychology laboratories. For instance, SPM, the most used software for the analysis and manipulation of fMRI images in research and clinical practice is fully programmed in matlab, and its use of the possibility to allow for sophisticated software modules to be freely added to the software has established it as the by far dominant software in the field. Many universities now offer, or are beginning to offer matlab introductory courses in their neuroscience and psychology programs. Nevertheless, so far there hasn't been a textbook specific to this market, and the use of the plethora of existing engineering focused Matlab textbooks is notoriously difficult for teaching the package in those environments.

This is the first comprehensive teaching resource and textbook for the teaching of Matlab in the Neurosciences and in Psychology. Matlab is unique in that it can be used to learn the entire empirical and experimental process, including stimulus generation, experimental control, data collection, data analysis and modeling. Thus a wide variety of computational problems can be addressed in a single programming environment. The idea is to empower advanced undergraduates and beginning graduate students by allowing them to design and implement their own analytical tools. As students advance in their research careers, they will have achieved the fluency required to understand and adapt more specialized tools as opposed to treating them as "black boxes".

Virtually all computational approaches in the book are covered by using genuine experimental data that are either collected as part of the lab project or were collected in the labs of the authors, providing the casual student with the look and feel of real data. In some rare cases, published data from classical papers are used to illustrate important concepts, giving students a computational understanding of critically important research.

The ability to effectively use computers in research is necessary in an academic environment that is increasingly focused on quantitative issues. Matlab represents an ideal language of scientific computing. It is based on powerful linear algebra structures which lend themselves to empirical problems on the one hand, while at the same time allowing the student to make rapid problem-oriented progress (particularly in terms of visualization of data points) without having to lose focus by worrying too much about memory allocation and other "plumbing" minutiae as would be required in other, more low-level programming languages such as C or C++.

Currently, there are several books that provide introductions to Matlab that are either too generic and fundamental or too irrelevant for neuroscientists and cognitive psychologists who typically face a very circumscribed range of problems in data collection, data analysis and signal processing. Some non-book tutorials and primers that are in use in the community are typically out of date. Matlab versions are usually not backwards compatible. Many commands and functions used in older tutorials and primers, such as "flops" won't work in current versions of Matlab, necessitating a book that is timely and up-to-date.

The complete lack of a relevant resource in this area, combined with a clearly felt need for such a text provided the primary and initial impetus for this project.

The authors provide such a dearly needed resource adapting and pooling materials that developed for and used in highly rated courses involving the use of Matlab in Neuroscience at the University of Chicago. Two co-authors (PW and NH) have presented their respective work on teaching Matlab at national meetings and two of the co-authors (PW and MB) were awarded the coveted University of Chicago's Booth Prize for excellence in teaching these courses. (http://chronicle.uchicago.edu/070524/boothprize.shtml ).

* The first comprehensive textbook on Matlab with a focus for its application in Neuroscience
* Problem based educational approach with many examples from neuroscience and cognitive psychology using real data
* Authors are award winning educators with strong teaching experience
* Instructor's Website with figurebank, additional problems and examples, solutions, etc.
Price: $62.95 [Notify me when price goes down.]

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Price: $12.95 [Notify me when price goes down.]

Signal Processing for Neuroscientists introduces analysis techniques primarily aimed at neuroscientists and biomedical engineering students with a reasonable but modest background in mathematics, physics, and computer programming. The focus of this text is on what can be considered the 'golden trio' in the signal processing field: averaging, Fourier analysis, and filtering. Techniques such as convolution, correlation, coherence, and wavelet analysis are considered in the context of time and frequency domain analysis. The whole spectrum of signal analysis is covered, ranging from data acquisition to data processing; and from the mathematical background of the analysis to the practical application of processing algorithms. Overall, the approach to the mathematics is informal with a focus on basic understanding of the methods and their interrelationships rather than detailed proofs or derivations. One of the principle goals is to provide the reader with the background required to understand the principles of commercially available analyses software, and to allow him/her to construct his/her own analysis tools in an environment such as MATLAB®.

· Multiple color illustrations are integrated in the text
· Includes an introduction to biomedical signals, noise characteristics, and recording techniques
· Basics and background for more advanced topics can be found in extensive notes and appendices.
Price: $63.15 [Notify me when price goes down.]

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Price: $5.60 [Notify me when price goes down.]

Will understanding our brains help us to know our minds? Or is there an unbridgeable distance between the work of neuroscience and the workings of human consciousness? In a remarkable exchange between neuroscientist Jean-Pierre Changeux and philosopher Paul Ricoeur, this book explores the vexed territory between these divergent approaches--and comes to a deeper, more complex perspective on human nature.

Ranging across diverse traditions, from phrenology to PET scans and from Spinoza to Charles Taylor, What Makes Us Think? revolves around a central issue: the relation between the facts (or "what is") of science and the prescriptions (or "what ought to be") of ethics. Changeux and Ricoeur ask: Will neuroscientific knowledge influence our moral conduct? Is a naturally based ethics possible? Pursuing these questions, they attack key topics at the intersection of philosophy and neuroscience: What are the relations between brain states and psychological experience? Between language and truth? Memory and culture? Behavior and action? What is a mental representation? How does a sign relate to what it signifies? How might subjective experience be constructed rather than discovered? And can biological or cultural evolution be considered progressive? Throughout, Changeux and Ricoeur provide unprecedented insight into what neuroscience can--and cannot--tell us about the nature of human experience.

Changeux and Ricoeur bring an unusual depth of engagement and breadth of knowledge to each other's subject. In doing so, they make two often hostile disciplines speak to one another in surprising and instructive ways--and speak with all the subtlety and passion of conversation at its very best.

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Price: $16.82 [Notify me when price goes down.]