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Physiology --- Artificial respiration --- Artificial kidney --- Mathematical models --- Biomathématiques. --- Équations différentielles. --- Biomathematics --- Differential equations --- Biomathématiques --- Differential equations. --- Physiology - Mathematical models --- Artificial respiration - Mathematical models --- Artificial kidney - Mathematical models --- Biomathematique --- Modelisation mathematique
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Biomathematics. Biometry. Biostatistics --- Animal physiology. Animal biophysics --- Human physiology --- Physiology --- System analysis --- Systems analysis --- Data processing --- Mathematical models --- -Physiology --- -System analysis --- Network theory --- System theory --- Mathematical optimization --- Animal physiology --- Animals --- Biology --- Anatomy --- Network analysis --- Network science --- System analysis. --- Physiology - Data processing --- Physiology - Mathematical models --- Physiology - laboratory manuals --- Systems analysis - laboratory manuals
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Plant physiology --- -57.087.1 --- 581.1 --- 633/635 --- 633/635 Agronomy. Crop science --- Agronomy. Crop science --- 581.1 Plant physiology --- 57.087.1 Biometry. Statistical study and treatment of biological data --- Biometry. Statistical study and treatment of biological data --- Botany --- Plants --- Mathematical models --- -Congresses --- Physiology --- Conferences - Meetings --- 57.087.1 --- Mathematical models&delete& --- Congresses --- Biomathematics. Biometry. Biostatistics --- Plant physiology. Plant biophysics --- Plant physiology - Mathematical models - Congresses
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Crops and soils --- Plant-soil relationships --- Soils --- Rhizosphere --- Roots (Botany) --- Plant nutrients --- Crops --- Plants --- Mathematical models --- Solute movement --- Physiology --- Nutrition --- Eau du sol --- Soil water --- Relation plante sol --- plant soil relations --- Racine --- Roots --- Transport des substances nutritives --- Nutrient transport --- Solution du sol --- soil solution --- Système racinaire --- Root systems --- Crops and soils - Mathematical models --- Plant-soil relationships - Mathematical models --- Soils - Solute movement - Mathematical models --- Rhizosphere - Mathematical models --- Roots (Botany) - Physiology - Mathematical models --- Plant nutrients - Mathematical models --- Crops - Nutrition - Mathematical models --- Plants - Nutrition - Mathematical models
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Chaotic behavior in systems --- Fractals --- Physiology --- Biological systems --- Mathematical models --- -Chaotic behavior in systems --- -Animal physiology --- Animals --- Biology --- Anatomy --- Fractal geometry --- Fractal sets --- Geometry, Fractal --- Sets, Fractal --- Sets of fractional dimension --- Dimension theory (Topology) --- Chaos in systems --- Chaos theory --- Chaotic motion in systems --- Differentiable dynamical systems --- Dynamics --- Nonlinear theories --- System theory --- Biosystems --- Systems, Biological --- Systems biology --- Philosophy --- -Mathematical models --- -Fractal geometry --- Animal physiology --- Physiology - Mathematical models --- Biological systems - Mathematical models
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Chaotic behavior in systems. --- Fractals. --- Medicine --- Physiology --- Mathematical models. --- Systems Theory --- Human physiology --- Mathematics. --- Medicine. --- Models, Biological. --- Statistics --- Systems Theory. --- Biological systems --- Chaotic behavior in systems --- Fractals --- Systèmes biologiques --- Chaos --- Fractales --- Physiologie --- Mathematical models --- Modèles mathématiques --- Biological systems - Mathematical models. --- Physiology - Mathematical models. --- Health Workforce --- Fractal geometry --- Fractal sets --- Geometry, Fractal --- Sets, Fractal --- Sets of fractional dimension --- Dimension theory (Topology) --- Chaos in systems --- Chaos theory --- Chaotic motion in systems --- Differentiable dynamical systems --- Dynamics --- Nonlinear theories --- System theory
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Human physiology --- Microcomputers --- Data processing --- Mathematical models --- Study and teaching --- Simulation methods --- -Human physiology --- -Microcomputers --- #TCPW P7.1 --- 681.3*A0 --- 681.3*I6 --- 681.3*J3 --- Home computers --- Micro computers --- Micros (Microcomputers) --- PCs (Microcomputers) --- Personal computers --- Small computers --- Minicomputers --- Human biology --- Medical sciences --- Physiology --- Human body --- -Simulation methods --- General --- Simulation and modeling (Computing methodologies)--See also {681.3*G3} --- Life and medical sciences (Computer applications) --- 681.3*J3 Life and medical sciences (Computer applications) --- 681.3*I6 Simulation and modeling (Computing methodologies)--See also {681.3*G3} --- 681.3*A0 General --- Study and teaching&delete& --- Human physiology - Data processing --- Human physiology - Mathematical models --- Human physiology - Study and teaching - Simulation methods
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The use of digital signal processing is ubiquitous in the field of physiology and biomedical engineering. The application of such mathematical and computational tools requires a formal or explicit understanding of physiology. Formal models and analytical techniques are interlinked in physiology as in any other field. This book takes a unitary approach to physiological systems, beginning with signal measurement and acquisition, followed by signal processing, linear systems modelling, and computer simulations. The signal processing techniques range across filtering, spectral analysis and wavelet analysis. Emphasis is placed on fundamental understanding of the concepts as well as solving numerical problems. Graphs and analogies are used extensively to supplement the mathematics. Detailed models of nerve and muscle at the cellular and systemic levels provide examples for the mathematical methods and computer simulations. Several of the models are sufficiently sophisticated to be of value in understanding real world issues like neuromuscular disease. This second edition features expanded problem sets and a link to extra downloadable material.
Biomedical engineering. --- Models, Theoretical. --- Physiology -- Mathematical models. --- Signal processing. --- Biomedical engineering --- Signal processing --- Physiology --- Health Occupations --- Computing Methodologies --- Engineering --- Investigative Techniques --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Technology, Industry, and Agriculture --- Information Science --- Disciplines and Occupations --- Technology, Industry, Agriculture --- Biomedical Engineering --- Models, Theoretical --- Models, Biological --- Signal Processing, Computer-Assisted --- Health & Biological Sciences --- Mathematical models --- Mathematical models. --- Processing, Signal --- Clinical engineering --- Medical engineering --- Engineering. --- Biophysics. --- Biological physics. --- Electrical engineering. --- Biomedical Engineering. --- Signal, Image and Speech Processing. --- Biophysics and Biological Physics. --- Electrical Engineering. --- Bioengineering --- Biophysics --- Medicine --- Information measurement --- Signal theory (Telecommunication) --- Computer engineering. --- Biomedical Engineering and Bioengineering. --- Biological and Medical Physics, Biophysics. --- Computers --- Design and construction --- Image processing. --- Speech processing systems. --- Electric engineering --- Biological physics --- Biology --- Medical sciences --- Physics --- Computational linguistics --- Electronic systems --- Information theory --- Modulation theory --- Oral communication --- Speech --- Telecommunication --- Singing voice synthesizers --- Pictorial data processing --- Picture processing --- Processing, Image --- Imaging systems --- Optical data processing
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Nonlinear dynamics has become an important field of research in recent years in many areas of the natural sciences. In particular, it has potential applications in biology and medicine; nonlinear data analysis has helped to detect the progress of cardiac disease, physiological disorders, for example episodes of epilepsy, and others. This book focuses on the current trends of research concerning the prediction of sudden cardiac death and the onset of epileptic seizures, using the nonlinear analysis based on ECG and EEG data. Topics covered include the analysis of cardiac models and neural models. The book is a collection of recent research papers by leading physicists, mathematicians, cardiologists and neurobiologists who are actively involved in using the concepts of nonlinear dynamics to explore the functional behaviours of heart and brain under normal and pathological conditions. This collection is intended for students in physics, mathematics and medical sciences, and researchers in interdisciplinary areas of physics and biology.
Nonlinear theories. --- Physiology -- Mathematical models. --- Physiology --- Nonlinear theories --- Nonlinear Dynamics --- Congresses --- Cardiovascular Physiological Processes --- Models, Theoretical --- Physiological Processes --- Nervous System Physiological Processes --- Publication Formats --- Investigative Techniques --- Physiological Phenomena --- Nervous System Physiological Phenomena --- Mathematics --- Cardiovascular Physiological Phenomena --- Publication Characteristics --- Natural Science Disciplines --- Musculoskeletal and Neural Physiological Phenomena --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Phenomena and Processes --- Circulatory and Respiratory Physiological Phenomena --- Disciplines and Occupations --- Human Anatomy & Physiology --- Health & Biological Sciences --- Mathematical models --- Mathematical models. --- Nonlinear problems --- Nonlinearity (Mathematics) --- Medicine. --- Bioinformatics. --- Computational biology. --- Biophysics. --- Biological physics. --- Statistical physics. --- Dynamical systems. --- Statistics. --- Biomedical engineering. --- Biomedicine. --- Biomedicine general. --- Statistical Physics, Dynamical Systems and Complexity. --- Biophysics and Biological Physics. --- Computer Appl. in Life Sciences. --- Biomedical Engineering. --- Statistics for Life Sciences, Medicine, Health Sciences. --- Calculus --- Mathematical analysis --- Mathematical physics --- Biology --- Complex Systems. --- Biological and Medical Physics, Biophysics. --- Biomedical Engineering and Bioengineering. --- Data processing. --- Statistical analysis --- Statistical data --- Statistical methods --- Statistical science --- Econometrics --- Clinical engineering --- Medical engineering --- Bioengineering --- Biophysics --- Engineering --- Medicine --- Clinical sciences --- Medical profession --- Human biology --- Life sciences --- Medical sciences --- Pathology --- Physicians --- Health Workforce --- Bioinformatics . --- Computational biology . --- Statistics . --- Biomedicine, general. --- Bioinformatics --- Bio-informatics --- Biological informatics --- Information science --- Computational biology --- Systems biology --- Biological physics --- Physics --- Dynamical systems --- Kinetics --- Mechanics, Analytic --- Force and energy --- Mechanics --- Statics --- Mathematical statistics --- Data processing
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