Dr. Charles Legéndy's Circuits in the Brain: A Model of Shape Processing in the Primary Visual Cortex is published at a time marked by unprecedented advances in experimental brain research which are, however, not matched by similar advances in theoretical insight. For this reason, the timing is ideal for the appearance of Dr. Legéndy's book, which undertakes to derive certain global features of the brain directly from the neurons. Circuits in the Brain, with its "relational firing" model of shape processing, includes a step-by-step development of a set of multi-neuronal networks for transmitting visual relations, using a strategy believed to be equally applicable to many aspects of brain function other than vision. The book contains a number of testable predictions at the neuronal level, some believed to be accessible to the techniques which have recently become available. With its novel approach and concrete references to anatomy and physiology, the monograph promises to open up entirely new avenues of brain research, and will be particularly useful to graduate students, academics, and researchers studying neuroscience and neurobiology. In addition, since Dr. Legéndy's book succeeds in achieving a clean logical presentation without mathematics, and uses a bare minimum of technical terminology, it may also be enjoyed by non-scientists intrigued by the intellectual challenge of the elegant devices applied inside our brain. The book is uniquely self-contained; with more than 120 annotated illustrations it goes into full detail in describing all functional and theoretical concepts on which it builds. About the Author: Dr. Charles Legéndy holds a bachelors' degree in electrical engineering from Princeton and a PhD in physics from Cornell. He wrote his first papers in solid-state physics (helicons), then turned his attention to the theory of data processing in the brain, the subject of the present book. Over the years, in addition, he was involved in a number of projects in experimental brain research (electrophysiology), aerospace engineering, and computers. Dr. Legéndy lives with his wife in New York City. |
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Awesome new theory Jun 27, 2010
Wow, I was blown away with this totally new way of looking at the brain - having been interested for a long time to see the secrets of the brain unlocked. So descriptive, clear and informative. Dr. Legendy has such a clear way of explaining his thoughts, the way he differs with the present theoretical community and the changes he would like to see in the way scientists look at the brain. This is of course a very complex topic. I as a layperson read his book and I was able to see/understand how different his ideas are, but I will not purport to understand everything he says. However, it made for very interesting reading and I just hope that the scientific community will take up Dr. Legendy's challenge and try to prove or disprove some of his claims. It was simply fascinating reading. Thanks for such a new viewpoint Dr. Legendy!
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Amazing provoctive important publication May 27, 2010
I feel that the ideas and implications of this book will echo through an entire generation of research work in neuroscience.
The book is a breakthrough view of the visual cortex based on neuroanatomy and multi-electrode spike train studies. It differs from the usual analytical studies in rejecting the view that brain function can be explained from consideration of average spike rates alone. It proposes that averaging eliminates the "surprising" firing events in spike trains,which contain most of the data in meaningful communication between neurons,leaving only the noise.
The book relies heavily on morphological data in describing the functional properties of the underlying circuitry. It is written in a clear and elegant language;it avoids unnecessary complex mathematical arguments,thereby making the work accessible to the many members of the neuroscience community who hate mathematics. It replaces the equations with wonderful annotated drawings which do a great job in clarifying the functional interaction between the neuronal structures and the spike trains.
Highly reccommended to anyone doing research in this field or anyone with an abiding interest in this important and fascinating subject.
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based on 2 reviews
