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Modeling and Simulation in Biomedical Engineering: Applications in Cardiorespiratory Physiology
CITATION
van Meurs, Willem
.
Modeling and Simulation in Biomedical Engineering: Applications in Cardiorespiratory Physiology
.
US
: McGraw-Hill Professional, 2011.
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Modeling and Simulation in Biomedical Engineering: Applications in Cardiorespiratory Physiology
Authors:
Willem van Meurs
Published:
July 2011
eISBN:
9780071714464 0071714464
|
ISBN:
9780071714457
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Book Description
Table of Contents
Contents
Foreword
Preface
Acknowledgments
1 Introduction
1.1 Signals and Systems
1.2 System Properties
SISO and MIMO
Continuous-Time and Discrete-Time
Static and Dynamic
Linear and Nonlinear
Time-Invariant and Time-Variant
1.3 Modeling and Simulation
1.4 Applications in Biomedical Engineering
1.5 Symbolic Notation
Review Problems
References and Further Reading
Part I Theory
2 Model Requirements
2.1 Qualitative Aspects
2.2 Quantitative Aspects
2.3 Implementation and Interfacing
Model Code Implementation
Interfacing
General Program Requirements
2.4 Target Response Data
Review Problems
References and Further Reading
3 Conceptual Models
3.1 Block Diagrams
3.2 Component Diagrams
3.3 General Observations on Conceptual Models
Review Problems
References and Further Reading
4 Mathematical Models
4.1 A Model of Two Physical Systems
4.2 State Variable Models
4.3 Units and Numerical Values
4.4 Direct Representation of Fluid Circuits
4.5 Direct Representation of Gas Uptake and Distribution
4.6 Direct Representation of Simple Transfers in the Nervous System
4.7 Electrical Analogs and State Variable Models of Circuits
4.8 General Observations on Mathematical Models and Parameter Estimation
Review Problems
References and Further Reading
5 Software Implementation
5.1 Discretization of the Continuous-Time State Equation
5.2 Basic Algorithms for Implementation of the Discrete-Time State Variable Model
5.3 Model Code Verification
5.4 Connecting State Variable Models
Review Problems
References and Further Reading
6 Simulation Results and Model Validation
6.1 Definitions and Overall Procedure
6.2 Quantitative and Qualitative Methods for Establishing Accuracy
6.3 Range of Validity, Target Data, and Experimental Conditions
Review Problems
References and Further Reading
Part II Applications
7 A Model of the Cardiorespiratory System
7.1 Model Requirements
7.2 Conceptual Model
Reference and Further Reading
8 Circulation
8.1 Model Requirements
8.2 Conceptual Models
8.3 Mathematical Models
References and Further Reading
9 Respiration
9.1 Model Requirements
9.2 Multiple Models
9.3 Conceptual Models
9.4 Mathematical Models
References and Further Reading
10 Physiologic Control
10.1 Model Requirements
10.2 Conceptual Models
10.3 Mathematical Models
References and Further Reading
Part III Advanced Topics
11 Sensitivity Analysis
11.1 Method
11.2 Application to a Hemodynamic Model
References and Further Reading
12 Design of Model-Driven Acute Care Training Simulators
12.1 Training Program Design
12.2 Simulator Design
12.3 Model Requirements
References and Further Reading
Index