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The impaired brain has often been difficult to rehabilitate owing to limited knowledge of the brain system. Recently, advanced imaging techniques such as fMRI and MEG have allowed researchers to investigate spatiotemporal dynamics in the living human brain. Consequently, knowledge in systems neuroscience is now rapidly growing. Advanced techniques have found practical application by providing new prosthetics, such as brain–machine interfaces, expanding the range of activities of persons with disabilities, or the elderly. The book’s chapters are authored by researchers from various research fields such as systems neuroscience, rehabilitation, neurology, psychology and engineering. The book explores the latest advancements in neurorehabilitation, plasticity and brain–machine interfaces among others and constitutes a solid foundation for researchers who aim to contribute to the science of brain function disabilities and ultimately to the well-being of patients and the elderly worldwide.
Rapidly growing knowledge in systems neuroscience may contribute to expand the range of activities in persons with disabilities, but in its practical application, cooperation between experts in different research fields is necessary. In this conference, the guest speakers and audiences will be from wide range of research fields; e.g., systems-neuroscience, neurology, engineering, psychology, and the attendees will discuss the possibilities.
This book offers a philosophical perspective on contemporary Tourette Syndrome scholarship, a field which has exploded over the last thirty years. Despite intense research efforts on this common neurodevelopmental condition in the age of the brain sciences, the syndrome’s causes and potential cures remain intriguingly elusive. How does this lack of progress relate to the tacitly operating philosophical concepts that shape our current thinking about Tourette Syndrome? This book foregrounds these tacit concepts and shows how they relate to “big topics” in philosophy such as time, volition, and the self. By tracing how these topics relate to current research on Tourette’s, it invites us...
Each year, the Annual BCI Research Award recognizes the top new projects in brain-computer interface (BCI) research. This book contains summaries of these projects from the 2017 BCI Research Award. Each chapter is written by the group that submitted the BCI project that was nominated, and introduction and discussion chapters provide supporting information and explore trends that are reflected in the annual awards each year. One of the prominent trends in recent years has been BCIs for new patient groups, and many chapters in this book present emerging research directions that might become more prevalent in the near future.
“This is obviously the most significant book of the year for Conservative Jews. But, going further, I think it is a must-read for any Jew who takes his/her relationship to Jewish law seriously.” -- Jewish Herald-Voice; “This book is a serious attempt by a serious scholar to address contemporary issues facing Conservative Jews.” -- Jewish Book World Every generation of Jews in every denomination of Judaism finds itself facing complex legal questions. The status of same-sex unions and the plight of the agunah (a woman who cannot obtain a divorce), are just two of a myriad of thorny questions Jewish legal experts grapple with today. These are not esoteric problems but issues with a prof...
The brain is the organ of decision making, and evolved to maximize the outcomes desirable for the survival and reproduction of the species. Compared to the sensory and motor functions of the brain, however, the process of decision making is less accessible to direct experimental manipulations and hence requires more careful theoretical analyses. Indeed, the principle of optimality and frequent departures of human behaviors from those predicted for optimal rational decision makers have long been studied experimentally as well as theoretically. However, it is only recently that neurobiological studies of decision making started exploiting the framework previously developed in economics and psy...
Oscillatory brain activities reflect and affect network activities in the brain. They support many physiological functions from motor control to cognition and emotion. Abnormal oscillatory brain activities are commonly observed in neurological and psychiatric disorders including epilepsy, Parkinson’s disease, Alzheimer’s disease, schizophrenia, anxiety/trauma-related disorders, major depressive disorders, addiction, etc. Therefore, these disorders can be considered as common oscillation defects “oscillopathies” despite having distinct behavioral manifestations. Recent advances in brain activity measurements and analyses have allowed us to study the pathological oscillations of each d...
What can we learn from spontaneously occurring brain and other physiological signals about an individual’s cognitive and affective state and how can we make use of this information? One line of research that is actively involved with this question is Passive Brain-Computer-Interfaces (BCI). To date most BCIs are aimed at assisting patients for whom brain signals could form an alternative output channel as opposed to more common human output channels, like speech and moving the hands. However, brain signals (possibly in combination with other physiological signals) also form an output channel above and beyond the more usual ones: they can potentially provide continuous, online information a...