Neuroinformatics


Book Description

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.




Computational Neuroscience


Book Description

Computational Neuroscience - A First Course provides an essential introduction to computational neuroscience and equips readers with a fundamental understanding of modeling the nervous system at the membrane, cellular, and network level. The book, which grew out of a lecture series held regularly for more than ten years to graduate students in neuroscience with backgrounds in biology, psychology and medicine, takes its readers on a journey through three fundamental domains of computational neuroscience: membrane biophysics, systems theory and artificial neural networks. The required mathematical concepts are kept as intuitive and simple as possible throughout the book, making it fully accessible to readers who are less familiar with mathematics. Overall, Computational Neuroscience - A First Course represents an essential reference guide for all neuroscientists who use computational methods in their daily work, as well as for any theoretical scientist approaching the field of computational neuroscience.




Neuroinformatics for Neuropsychology


Book Description

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.




Springer Handbook of Bio-/Neuro-Informatics


Book Description

The Springer Handbook of Bio-/Neuro-Informatics is the first published book in one volume that explains together the basics and the state-of-the-art of two major science disciplines in their interaction and mutual relationship, namely: information sciences, bioinformatics and neuroinformatics. Bioinformatics is the area of science which is concerned with the information processes in biology and the development and applications of methods, tools and systems for storing and processing of biological information thus facilitating new knowledge discovery. Neuroinformatics is the area of science which is concerned with the information processes in biology and the development and applications of methods, tools and systems for storing and processing of biological information thus facilitating new knowledge discovery. The text contains 62 chapters organized in 12 parts, 6 of them covering topics from information science and bioinformatics, and 6 cover topics from information science and neuroinformatics. Each chapter consists of three main sections: introduction to the subject area, presentation of methods and advanced and future developments. The Springer Handbook of Bio-/Neuroinformatics can be used as both a textbook and as a reference for postgraduate study and advanced research in these areas. The target audience includes students, scientists, and practitioners from the areas of information, biological and neurosciences. With Forewords by Shun-ichi Amari of the Brain Science Institute, RIKEN, Saitama and Karlheinz Meier of the University of Heidelberg, Kirchhoff-Institute of Physics and Co-Director of the Human Brain Project.




The Stoics


Book Description

'Not only one of the best but also the most comprehensive treatment of Stoicism written this century.' -""Times Literary Supplement "" Stoic philosophy had a profound effect on thought and conduct in the ancient world, and has continued to influence philosophers and thinkers from the Renaissance to the present day. Professor Sandbach, in this brilliant and original study, presents the main outlines of the system, concentrating in particular on the ethical teaching, historically the most important facet of the Stoic philosophy. The author traces the changes in doctrine and emphasis through the centuries, gives an account of individual thinkers and writers and describes the role played by adherents of the Stoic faith in contemporary society. The Stoics will be welcomed both by classicists and philosophers as well as by the general reader, as a lucid exposition of an important philosophy. ""Will prove lucid for the uninitiated and stimulating for the specialist.' -""Classical Review ""




Recent Advances and the Future Generation of Neuroinformatics Infrastructure


Book Description

The huge volume of multi-modal neuroimaging data across different neuroscience communities has posed a daunting challenge to traditional methods of data sharing, data archiving, data processing and data analysis. Neuroinformatics plays a crucial role in creating advanced methodologies and tools for the handling of varied and heterogeneous datasets in order to better understand the structure and function of the brain. These tools and methodologies not only enhance data collection, analysis, integration, interpretation, modeling, and dissemination of data, but also promote data sharing and collaboration. This Neuroinformatics Research Topic aims to summarize the state-of-art of the current achievements and explores the directions for the future generation of neuroinformatics infrastructure. The publications present solutions for data archiving, data processing and workflow, data mining, and system integration methodologies. Some of the systems presented are large in scale, geographically distributed, and already have a well-established user community. Some discuss opportunities and methodologies that facilitate large-scale parallel data processing tasks under a heterogeneous computational environment. We wish to stimulate on-going discussions at the level of the neuroinformatics infrastructure including the common challenges, new technologies of maximum benefit, key features of next generation infrastructure, etc. We have asked leading research groups from different research areas of neuroscience/neuroimaging to provide their thoughts on the development of a state of the art and highly-efficient neuroinformatics infrastructure. Such discussions will inspire and help guide the development of a state of the art, highly-efficient neuroinformatics infrastructure.




Neuro-informatics and Neural Modelling


Book Description

How do sensory neurons transmit information about environmental stimuli to the central nervous system? How do networks of neurons in the CNS decode that information, thus leading to perception and consciousness? These questions are among the oldest in neuroscience. Quite recently, new approaches to exploration of these questions have arisen, often from interdisciplinary approaches combining traditional computational neuroscience with dynamical systems theory, including nonlinear dynamics and stochastic processes. In this volume in two sections a selection of contributions about these topics from a collection of well-known authors is presented. One section focuses on computational aspects from single neurons to networks with a major emphasis on the latter. The second section highlights some insights that have recently developed out of the nonlinear systems approach.




Neuroinformatics


Book Description

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.




Fundamentals of Computational Neuroscience


Book Description

The new edition of Fundamentals of Computational Neuroscience build on the success and strengths of the first edition. Completely redesigned and revised, it introduces the theoretical foundations of neuroscience with a focus on the nature of information processing in the brain.