How powerful new methods in nonlinear control engineering can be applied to neuroscience, from fundamental model formulation to advanced medical applications. Over the past sixty years, powerful methods of model-based control engineering have been responsible for such dramatic advances in engineering systems as autolanding aircraft, autonomous vehicles, and even weather forecasting. Over those same decades, our models of the nervous system have evolved from single-cell membranes to neuronal networks to large-scale models of the human brain. Yet until recently control theory was completely inapplicable to the types of nonlinear models being developed in neuroscience. The revolution in nonlinear control engineering in the late 1990s has made the intersection of control theory and neuroscience possible. In Neural Control Engineering, Steven Schiff seeks to bridge the two fields, examining the application of new methods in nonlinear control engineering to neuroscience. After presenting extensive material on formulating computational neuroscience models in a control environment—including some fundamentals of the algorithms helpful in crossing the divide from intuition to effective application—Schiff examines a range of applications, including brain-machine interfaces and neural stimulation. He reports on research that he and his colleagues have undertaken showing that nonlinear control theory methods can be applied to models of single cells, small neuronal networks, and large-scale networks in disease states of Parkinson's disease and epilepsy. With Neural Control Engineering the reader acquires a working knowledge of the fundamentals of control theory and computational neuroscience sufficient not only to understand the literature in this trandisciplinary area but also to begin working to advance the field. The book will serve as an essential guide for scientists in either biology or engineering and for physicians who wish to gain expertise in these areas.
How powerful new methods in nonlinear control engineering can be applied to neuroscience, from fundamental model formulation to advanced medical applications. Over the past sixty years, powerful methods of model-based control engineering have been responsible for such dramatic advances in engineering systems as autolanding aircraft, autonomous vehicles, and even weather forecasting. Over those same decades, our models of the nervous system have evolved from single-cell membranes to neuronal networks to large-scale models of the human brain. Yet until recently control theory was completely inapplicable to the types of nonlinear models being developed in neuroscience. The revolution in nonlinear control engineering in the late 1990s has made the intersection of control theory and neuroscience possible. In Neural Control Engineering, Steven Schiff seeks to bridge the two fields, examining the application of new methods in nonlinear control engineering to neuroscience. After presenting extensive material on formulating computational neuroscience models in a control environment—including some fundamentals of the algorithms helpful in crossing the divide from intuition to effective application—Schiff examines a range of applications, including brain-machine interfaces and neural stimulation. He reports on research that he and his colleagues have undertaken showing that nonlinear control theory methods can be applied to models of single cells, small neuronal networks, and large-scale networks in disease states of Parkinson's disease and epilepsy. With Neural Control Engineering the reader acquires a working knowledge of the fundamentals of control theory and computational neuroscience sufficient not only to understand the literature in this trandisciplinary area but also to begin working to advance the field. The book will serve as an essential guide for scientists in either biology or engineering and for physicians who wish to gain expertise in these areas.
Fully updated from cover to cover, incorporating over 200 new studies on the evidence-based approach to diagnosis, the 4th Edition of Evidence-Based Physical Diagnosis remains your go-to resource for guidance on interpreting physical signs, enabling you to determine the most appropriate physical finding to confirm a diagnosis. Internationally renowned author Dr. Steven McGee puts the most current evidence at your fingertips, allowing you to quickly compare all physical signs for a given diagnosis, understand their significance, and then select the most accurate ones. Includes a unique evidence-based calculator online that enables you to easily determine probability using likelihood ratios. Features a reader-friendly outline format, including dozens of "EBM boxes" and accompanying "EBM ruler" illustrations. Provides new evidence on the scientific value of many physical findings, including Cheyne-Stokes respirations, subclavian stenosis, fever of unknown origin, porto-pulmonary hypertension, localization of stroke, and many more. NEW Key Teaching Points at the beginning of every chapter, ideal for teachers of bedside medicine.
Evidence-Based Physical Diagnosis helps you choose the diagnostic approaches that have been proven most effective! Dr. Steven McGee puts the most current evidence at your fingertips, equipping you to easily select the best test for diagnosing a given condition and understand the diagnostic significance and accuracy of your findings. A remarkably easy-to-reference organization makes it simple to find the answers you need; and full-text online access at www.expertconsult.com lets you quickly reference the book from any computer or mobile device. Quickly review the history, pathogenesis, examination technique, and interpretation of physical findings for all areas of the body thanks to a very reader-friendly outline format, including more than 90 "EBM boxes" and accompanying "EBM ruler" illustrations. Get expert advice from Dr. Steven McGee, an internationally respected authority in physical examination and assessment, pain management, and education in general internal medicine. See exactly which studies document the significance of various findings thanks to thousands of up-to-date references. Access the complete contents online at www.expertconsult.com, plus a downloadable image collection and an evidence-based calculator that helps you determine probability ratios based on the evidence criteria. Apply the latest knowledge on hot topics such as the value of physical examination in taking care of the ICU patient, accurately diagnosing the etiology of systolic murmurs, diagnosing osteoarthritis and acute vertigo in the dizzy patient, diagnosing hemorrhagic stroke, and diagnosing pleural effusions. Implement the most current evidence-based approaches for evaluating stance and gait, Schamroth's sign (for clubbing), dementia, prediction of falls, hepatopulmonary syndrome, atrial fibrillation, relative bradycardia, tourniquet test (for dengue infections), acute stroke, and pleural effusion. Assess the pretest probability of disease, given particular signs or symptoms, with new at-a-glance tables. Make effective decisions thanks to updated content throughout, including new EBM boxes covering over 250 recent studies on physical diagnosis-ensuring that all diagnostic information (i.e., sensitivity, specificity, and likelihood ratios) is up to date. Increase diagnostic confidence with McGee!
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