Neuroinformatics for Neuropsychology
Neuroinformatics for Neuropsychology

Author: Vinoth Jagaroo

Publisher: Springer Science & Business Media

Published: 2009-08-11

Total Pages: 133

ISBN-13: 1441900608

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Bioinformatics involves specialized application of computer technology to investigative and conceptual problems in biology and medicine; neuroinformatics (NI) is the practice of bioinformatics in the neurosciences. Over the past two decades the biomedical sciences have been revolutionized by databases, data mining and data modeling techniques. The Human Genome Project, which depended on informatics methods, has been the most well recognized bioinformatics undertaking. Bioinformatics has since been applied all across biology and medicine, and has also transformed almost every avenue in neuroscience. Yet in neuropsychology, NI perspectives remain largely unrealized. Ironically, NI offers enormous potential to the essential praxis of neuropsychology - assessing cognitive behavior and relating cognition to neural systems. Neuroinformatics can be applied to neuropsychology as richly as it has been applied across the neurosciences. Neuroinformatics for Neuropsychology is the first book to explain the relevance and value of NI to neuropsychology. It systematically describes NI tools, applications and models that can enhance the efforts of neuropsychologists. It also describes the implications of NI for neuropsychology in the 21st century – fundamental shifts away from the conventional modes of research, practice and communication that have thus far characterized the field. One of the foremost experts on the subject: Illustrates the vital role NI is playing throughout the neurosciences. Provides a sampling of NI tools and applications in neuroscience research, and lays out current organization structures that support NI. Describes the lack of NI in neuropsychology, differentiates between NI systems for neuropsychology and conventional computerized assessment methods, and proposes criteria for neuropsychology-specific NI systems. Describes NI applications and models currently in use in neuropsychology, and NI models for neuropsychology that are being pioneered in phenomics research. Discusses potential obstacles and aids to NI in neuropsychology, including issues such as data sharing, standardization of methods, and data ontology. Projects the future of neuropsychological research and practice in light of the new generation of the internet, Web 2.0, geared to collective knowledge building. A vital introduction to a profound technological practice, Neuroinformatics for Neuropsychology is important reading for clinical neuropsychologists, cognitive neuroscientists, behavioral neurologists, and speech-language pathologists. Researchers, clinicians, and graduate students interested in informatics for the brain-behavioral sciences will especially welcome this unique volume.

Neuroinformatics
Neuroinformatics

Author: Stephen H. Koslow

Publisher: Psychology Press

Published: 2013-03-07

Total Pages: 418

ISBN-13: 1134798490

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Modern neuroscience is providing profound insights into nature's most mysterious puzzle -- the human brain -- while applications of information and computer science are transforming the way people interact with each other and with the world around them. The new science of neuroinformatics, which sits at the junction, integrates knowledge and promises to catalyze progress in these dynamic and seemingly disparate areas of study. Neuroinformatics research will allow brain and behavioral scientists to make better sense and use of their data through advanced information tools and approaches. These include new ways to acquire, store, visualize, analyze, integrate, synthesize, and share data, as well as the means for electronic scientific collaboration. In this country, the principal source of support for neuroinformatics research is the Human Brain Project. The project, which is led by the National Institute of Mental Health, now supports neuroinformatics research performed by over 60 scientists. This volume presents the findings of the first group of researchers. Their efforts will begin to arm the next generation of brain and behavioral scientists with tools to attack the serious problem of information overload, and ultimately relate their findings to those obtained from different species, levels of biological organization, methods, and laboratories. And the challenges presented by the amount, diversity, and complexity of brain and behavioral data will give informatics researchers the impetus to test and expand the limits of their own science. The work described in this volume signals a change in the way scientists interact with data, instruments and each other, and points the way to a very different and richer future understanding of the human brain and mind.

Computing the Brain
Computing the Brain

Author: Michael A. Arbib

Publisher: Academic Press

Published: 2001

Total Pages: 412

ISBN-13: 9780120597819

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Watching her sister in a losing battle with anorexia as a result of being unable to cope with the death of their father, Holly realizes that her own dreams must be put aside for the moment in order to help her sister get through this difficult period by teaching her how to deal with the loss in a healthy way before it's too late. Reprint.

Statistical Signal Processing for Neuroscience and Neurotechnology
Statistical Signal Processing for Neuroscience and Neurotechnology

Author: Karim G. Oweiss

Publisher: Academic Press

Published: 2010-09-22

Total Pages: 441

ISBN-13: 0080962963

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This is a uniquely comprehensive reference that summarizes the state of the art of signal processing theory and techniques for solving emerging problems in neuroscience, and which clearly presents new theory, algorithms, software and hardware tools that are specifically tailored to the nature of the neurobiological environment. It gives a broad overview of the basic principles, theories and methods in statistical signal processing for basic and applied neuroscience problems.Written by experts in the field, the book is an ideal reference for researchers working in the field of neural engineering, neural interface, computational neuroscience, neuroinformatics, neuropsychology and neural physiology. By giving a broad overview of the basic principles, theories and methods, it is also an ideal introduction to statistical signal processing in neuroscience. A comprehensive overview of the specific problems in neuroscience that require application of existing and development of new theory, techniques, and technology by the signal processing community Contains state-of-the-art signal processing, information theory, and machine learning algorithms and techniques for neuroscience research Presents quantitative and information-driven science that has been, or can be, applied to basic and translational neuroscience problems

Neuroinformatics
Neuroinformatics

Author: Chiquito J. Crasto

Publisher: Springer Science & Business Media

Published: 2007-11-29

Total Pages: 419

ISBN-13: 1588297209

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Neuroinformatics presents cutting-edge techniques for the synergistic study of neuroinformatics. The book facilitates the efforts of discovering neuroscience through the sharing of data and the use of computational models. It demonstrates the use of neuroinformatic components as a mechanism for understanding complex disorders. It contains detailed explanations, advantages, and disadvantages of traditional and non-invasive imaging methods.

The Role of Technology in Clinical Neuropsychology
The Role of Technology in Clinical Neuropsychology

Author: Robert L. Kane

Publisher: Oxford University Press

Published: 2017

Total Pages: 521

ISBN-13: 0190234733

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Neuropsychology as a field has been slow to embrace and exploit the potential offered by technology to either make the assessment process more efficient or to develop new capabilities that augment the assessment of cognition. The Role of Technology in Clinical Neuropsychology details current efforts to use technology to enhance cognitive assessment with an emphasis on developing expanded capabilities for clinical assessment. The first sections of the book provide an overview of current approaches to computerized assessment along with newer technologies to assess behavior. The next series of chapters explores the use of novel technologies and approaches in cognitive assessment as they relate to developments in telemedicine, mobile health, and remote monitoring including developing smart environments. While still largely office-based, health care is increasingly moving out of the office with an increased emphasis on connecting patients with providers, and providers with other providers, remotely. Chapters also address the use of technology to enhance cognitive rehabilitation by implementing conceptually-based games to teach cognitive strategies and virtual environments to measure outcomes. Next, the chapters explore the use of virtual reality and scenario-based assessment to capture critical aspects of performance not assessed by traditional means and the implementation of neurobiological metrics to enhance patient assessment. Chapters also address the use of imaging to better define cognitive skills and assessment methods along with the integration of cognitive assessment with imaging to define the functioning of brain networks. The final section of the book discusses the ethical and methodological considerations needed for adopting advanced technologies for neuropsychological assessment. Authored by numerous leading figures in the field of neuropsychology, this volume emphasizes the critical role that virtual environments, neuroimaging, and data analytics will play as clinical neuropsychology moves forward in the future.

Clinical Neuropsychology and Technology
Clinical Neuropsychology and Technology

Author: Thomas D. Parsons

Publisher: Springer

Published: 2016-03-30

Total Pages: 198

ISBN-13: 3319310755

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This ambitious and accessible guide reviews innovative technologies enhancing the field of neuropsychological testing. Starting with the premise that standard batteries—some nearly a century old—lag behind in our era of neuroimaging, genomic studies, psychophysiology, and informatics, it presents digital measures offering more efficient administration, more accurate data, and wider clinical applications. Ecological validity and evidence-based science are key themes in these advances, from virtual environments and assessment of social cognition to the shift toward situational reliability and away from lab-created constructs. These chapters also demonstrate how high-tech assessment tools can complement or supplement traditional pencil-and-paper measures without replacing them outright. This book covers in depth: · The evolution of neuropsychological testing over the past century. · Current applications of computer-based neuropsychological assessments. · The strengths and limitations of simulation technology. · The use of teleneuropsychology in reaching remote clients. · The potential of gaming technologies in neurocognitive rehabilitation. · How technology can transform test data into information useful across specialties. Clinical Neuropsychology and Technology brings neuropsychologists, clinical psychologists, and rehabilitation specialists into the vanguard of assessment measures and processes that will translate into more accurate testing, collaborations between disciplines, and valid and useful outcomes.

Neuroinformatics
Neuroinformatics

Author: Fouad Sabry

Publisher: One Billion Knowledgeable

Published: 2022-08-04

Total Pages: 404

ISBN-13:

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What Is Neuroinformatics The fields of informatics and neurology have been combined to establish the discipline of neuroinformatics. The processing of data and information in the field of neuroscience using artificial neural networks is referred to as neuroinformatics. There are three primary areas in which neuroinformatics needs to be utilized, and they are as follows: the creation of computer models of the nervous system and the processes that take place in the brain.the creation of tools for analyzing and modeling data from the field of neuroscience, the creation of tools and databases for the management and sharing of data from the field of neuroscience at all levels of analysis, How You Will Benefit (I) Insights, and validations about the following topics: Chapter 1: Neuroinformatics Chapter 2: Neuroscience Chapter 3: Mind uploading Chapter 4: Computational neuroscience Chapter 5: Bio-inspired computing Chapter 6: Neuromorphic engineering Chapter 7: Terry Sejnowski Chapter 8: Neural network Chapter 9: Krasnow Institute for Advanced Study Chapter 10: Neural computation Chapter 11: Blue Brain Project Chapter 12: International Neuroinformatics Coordinating Facility Chapter 13: Human Brain Project Chapter 14: Multi-simulation coordinator Chapter 15: Brain simulation Chapter 16: Informatics Chapter 17: Nervous system network models Chapter 18: Outline of brain mapping Chapter 19: Upinder Singh Bhalla Chapter 20: Predictive coding Chapter 21: MIT Department of Brain and Cognitive Sciences (II) Answering the public top questions about neuroinformatics. (III) Real world examples for the usage of neuroinformatics in many fields. (IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of neuroinformatics' technologies. Who This Book Is For Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of neuroinformatics.

Fundamentals of Neural Network Modeling
Fundamentals of Neural Network Modeling

Author: Randolph W. Parks

Publisher: MIT Press

Published: 1998

Total Pages: 450

ISBN-13: 9780262161756

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Provides an introduction to the neural network modeling of complex cognitive and neuropsychological processes. Over the past few years, computer modeling has become more prevalent in the clinical sciences as an alternative to traditional symbol-processing models. This book provides an introduction to the neural network modeling of complex cognitive and neuropsychological processes. It is intended to make the neural network approach accessible to practicing neuropsychologists, psychologists, neurologists, and psychiatrists. It will also be a useful resource for computer scientists, mathematicians, and interdisciplinary cognitive neuroscientists. The editors (in their introduction) and contributors explain the basic concepts behind modeling and avoid the use of high-level mathematics. The book is divided into four parts. Part I provides an extensive but basic overview of neural network modeling, including its history, present, and future trends. It also includes chapters on attention, memory, and primate studies. Part II discusses neural network models of behavioral states such as alcohol dependence, learned helplessness, depression, and waking and sleeping. Part III presents neural network models of neuropsychological tests such as the Wisconsin Card Sorting Task, the Tower of Hanoi, and the Stroop Test. Finally, part IV describes the application of neural network models to dementia: models of acetycholine and memory, verbal fluency, Parkinsons disease, and Alzheimer's disease. Contributors J. Wesson Ashford, Rajendra D. Badgaiyan, Jean P. Banquet, Yves Burnod, Nelson Butters, John Cardoso, Agnes S. Chan, Jean-Pierre Changeux, Kerry L. Coburn, Jonathan D. Cohen, Laurent Cohen, Jose L. Contreras-Vidal, Antonio R. Damasio, Hanna Damasio, Stanislas Dehaene, Martha J. Farah, Joaquin M. Fuster, Philippe Gaussier, Angelika Gissler, Dylan G. Harwood, Michael E. Hasselmo, J, Allan Hobson, Sam Leven, Daniel S. Levine, Debra L. Long, Roderick K. Mahurin, Raymond L. Ownby, Randolph W. Parks, Michael I. Posner, David P. Salmon, David Servan-Schreiber, Chantal E. Stern, Jeffrey P. Sutton, Lynette J. Tippett, Daniel Tranel, Bradley Wyble

Databasing the Brain
Databasing the Brain

Author: Steven H. Koslow

Publisher:

Published: 2005-03-10

Total Pages: 488

ISBN-13:

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Covers both basic principles and specific applications across a range of problems in brain research. It truly integrates neuroscience with informatics, providing a means for understanding the new analytical tools and models of neuronal functions now being developed. Each chapter offers practical guidance for applying this knowledge to current research, enhancing electronic collaborations, and formulating hypotheses.