CiNii Books - 23 problems in systems neuroscience

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Bibliographic Information

23 problems in systems neuroscience

edited by J. Leo van Hemmen, Terrence J. Sejnowski

（Computational neuroscience / series editor, Michael Stryker）

Oxford University Press, 2006

Other Title: Twenty three problems in systems neuroscience

Available at / 8 libraries

Kyoto Sangyo University Library

491.37||HEM

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公立大学法人福島県立医科大学附属学術情報センター図

491.37||Tw 5259448

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The University of Electro-Communications Library研

491.37/Tw2006105751

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General Library,University of Tokyo

573.86:H4890013049598

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Tohoku University Engineering Library図

03150006518

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University of Toyama Library, Central Library工室

491.37||H37||Tw20061000820

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北海道大学附属図書館図

573.86/H3740580532106

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University of Miyazaki Library/ Library Director:Ikari Tetsuo

491.37||H5210000501

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Includes bibliographical references and indexes

Description and Table of Contents

Description

The complexity of the brain and the protean nature of behavior remain the most elusive area of science, but also the most important. van Hemmen and Sejnowski invited 23 experts from the many areas-from evolution to qualia-of systems neuroscience to formulate one problem each. Although each chapter was written independently and can be read separately, together they provide a useful roadmap to the field of systems neuroscience and will serve as a source of inspirations for future explorers of the brain.

Table of Contents

Part I How have brains evolved?
1. Shall we ever understand the fly's brain?
2. Can we understand the action of brain in natural environments?
3. Hemisphere dominance of brain function-which functions are lateralized and why?
Part II How is the cerebral cortex organized?
4. What is the function of the thalamus?
5. What is a neuronal map, how does it arise, and what is it good for?
6. What is fed back?
Part III How do neurons interact?
7. How Can the Brain be so Fast?
8. What is the Neural Code?
9. Are single cortical neurons independent or are they obedient members of a huge orchestra?
10. What is the other 85% of V1 doing?
Part IV What can brains compute?
11. Which computation runs in visual cortical columns?
12. Are neurons adapted for specific computations? Examples from temporal coding in the auditory system
13. How is time represented in the brain?
14. How general are neural codes in sensory systems?
15. How does the hearing system perform auditory scene analysis?
16. How does our visual system achieve shift and size invariance?
17. What is reflected in sensory neocortical activity: External stimuli or what the cortex does with them?
18. Do perception and action result from different brain circuits? The three visual systems hypothesis
19. What are the projective fields of cortical neurons?
20. How are the features of objects integrated into perceptual wholes that are selected by attention?
21. Where are the switches on this thing?
22. Synesthesia: What does it tell us about the emergence of qualia, metaphor, abstract thought and language?
23. What are the neural correlates of consciousness?

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