The first book to describe lung mechanics from a quantitative standpoint. Focusing on inverse modeling, it develops in a logical progression from simple to state-of-the-art dynamic and nonlinear models. Example applications to experimental data are presented throughout the book, together with problem sets at the end of each chapter.
The first book to describe lung mechanics from a quantitative standpoint. Focusing on inverse modeling, it develops in a logical progression from simple to state-of-the-art dynamic and nonlinear models. Example applications to experimental data are presented throughout the book, together with problem sets at the end of each chapter.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Jason H. T. Bates is currently a Professor of Medicine and Molecular Physiology & Biophysics in the University of Vermont College of Medicine, and a Member of the Pulmonary Division at Fletcher Allen Health Care. He is also a member of the American Physiological Society, the American Thoracic Society, the Biomedical Engineering Society, and an elected senior member of the IEEE Engineering in Medicine and Biology Society. Dr Bates has published more than 190 peer-reviewed journal papers in addition to numerous book chapters, conference abstracts, and other articles. In 1994 he was awarded the Doctor of Science degree by Canterbury University, and in 2002 he was elected a Fellow of the American Institute for Medical and Biological Engineering.
Inhaltsangabe
Preface Notation 1. Introduction 2. Collecting data 3. The linear single-compartment model 4. Resistance and elastance 5. Nonlinear single-compartment models 6. Flow limitation 7. Linear two-compartment models 8. The general linear model 9. Inverse models of lung impedance 10. Constant phase model of impedance 11. Nonlinear dynamic models 12. Epilogue References Index.
Preface Notation 1. Introduction 2. Collecting data 3. The linear single-compartment model 4. Resistance and elastance 5. Nonlinear single-compartment models 6. Flow limitation 7. Linear two-compartment models 8. The general linear model 9. Inverse models of lung impedance 10. Constant phase model of impedance 11. Nonlinear dynamic models 12. Epilogue References Index.
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