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Author Semmlow, John
Title Circuits, Signals, and Systems for Bioengineers : A MATLAB-Based Introduction
Imprint Burlington : Elsevier Science & Technology, 2005
©2005
book jacket
Edition 1st ed
Descript 1 online resource (461 pages)
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
Series Biomedical Engineering Ser
Biomedical Engineering Ser
Note Front Cover -- Circuits, Systems, and Signals for Bioengineers: A Matlab-Based Introduction -- Copyright Page -- Contents -- CHAPTER 1. BIOENGINEERING SIGNALS AND SYSTEMS -- 1.1 Biological Systems -- 1.2 Biosignals -- 1.3 Linear Signal Analysis: Overview -- 1.4 Noise and Variability -- 1.5 Summary -- Problems -- CHAPTER 2. BASIC SIGNAL PROCESSING -- 2.1 Basic Signals: The Sinusoidal Waveform -- 2.2 Signal Properties: Basic Measurements -- 2.3 Advanced Measurements: Correlations and Covariances -- 2.4 MATLAB Implementation -- 2.5 Summary -- Problems -- CHAPTER 3. FREQUENCY TRANSFORMATIONS -- 3.1 Useful Properties of the Sinusoidal Signal -- 3.2 Fourier Series Analysis -- 3.3 Frequency Representation -- 3.4 Complex Representation -- 3.5 The Continuous Fourier Transform -- 3.6 Discrete Data: The Discrete Fourier Transform -- 3.7 Power Spectrum -- 3.8 Signal Bandwidth -- 3.9 MATLAB Implementation -- 3.10 Summary -- Problems -- CHAPTER 4. CIRCUIT AND ANALOG ANALYSIS IN SINUSOIDAL STEADY STATE -- 4.1 Circuits and Analog Systems -- 4.2 System Variables and Elements -- 4.3 Phasor Analysis -- 4.4 Mechanical Elements -- 4.5 Summary -- Problems -- CHAPTER 5. ANALYSIS OF ANALOG MODELS AND PROCESSES -- 5.1 Conservation Laws: Kirchhoff's Voltage Law -- 5.2 Conservation Laws: Kirchhoff's Current Law―Nodal Analysis -- 5.3 Conservation Laws: Newton's Law-Mechanical Systems -- 5.4 Summary -- Problems -- CHAPTER 6. FREQUENCY CHARACTERISTICS OF CIRCUITS AND ANALOG PROCESSES: THE TRANSFER FUNCTION -- 6.1 The Circuit or Mechanical System as a Process -- 6.2 Transfer Function Frequency Plots: The Bode Plot -- 6.3 Filters -- 6.4 MATLAB Implementation -- 6.5 Summary -- Problems -- CHAPTER 7. RELATIONSHIPS BETWEEN ANALOG ELEMENTS -- 7.1 System Simplifications: Passive Network Reduction -- 7.2 Ideal and Real Sources
7.3 Thévenin and Norton Theorems: Network Reduction with Sources -- 7.4 Measurement Loading -- 7.5 Mechanical Systems -- 7.6 Multiple Sources: Revisited -- 7.7 Summary -- Problems -- CHAPTER 8. THE ANALYSIS OF TRANSIENTS: THE LAPLACE TRANSFORM -- 8.1 The Laplace Transform -- 8.2 Laplace Analysis: The Laplace Transfer Function -- 8.3 Nonzero Initial Conditions -- 8.4 Initial and Final Value Theorems -- 8.5 The Laplace Domain and the Frequency Domain -- 8.6 Summary -- Problems -- CHAPTER 9. SYSTEM MODELS AND BEHAVIOR -- 9.1 The System Model -- 9.2 The Convolution Integral -- 9.3 Resonance -- 9.4 Summary -- Problems -- CHAPTER 10. BASIC ANALOG ELECTRONICS: OPERATIONAL AMPLIFIERS -- 10.1 The Amplifier -- 10.2 The Operational Amplifier -- 10.3 The Noninverting Amplifier -- 10.4 The Inverting Amplifier -- 10.5 Practical Operational Amplifiers -- 10.6 Power Supply -- 10.7 Operational Amplifier Circuits, or 101 Things to Do with an Operational Amplifier -- 10.8 Summary -- Problems -- APPENDIX A -- A.1 Derivation of Euler's Formula -- A.2 Confirmation of the Fourier Series -- A.3 Derivation of the Transfer Function of a Second-Order Op Amp Filter -- A.4 Derivation of the Transfer Function of an Instrumentation Amplifier -- APPENDIX B. Laplace Transforms -- APPENDIX C. Trigonometric and Other Formulas -- APPENDIX D. Units -- APPENDIX E. Complex Arithmetic -- E.1.1 Addition and Subtraction -- E.1.2 Multiplication and Division -- APPENDIX F. LF 356 Specifications -- APPENDIX G. Determinants and Cramer's Rule -- BIBLIOGRAPHY -- INDEX
Approaches such as the Transfer Function and the Fourier and the Laplace transforms are important tools for bioengineers that often considered borrowed from electrical engineering. This text allows bioengineering students and bioengineers the ability to foster a sense of ownership of these tools by providing them with a solid foundation in the concepts of linear systems analysis. Circuits, Signals and Systems for Bioengineers guides readers through the basic engineering concepts that underlie biological systems, medical devices, biocontrol, and biosignal analysis. Material important to their study and traditionally taught in an electrical engineering service course can now be embraced by bioengineers. Instructive illustrations and MATLAB routines and examples are provided throughout the book. All disc-based content for this title is now available on the Web. · Translates important electrical engineering tools such as Fourier Transform, Laplace Transform, analog modeling, systems modeling, and other linear systems analysis techniques for bioengineering students. · Includes MATLAB examples and problems. · Includes companion website with PowerPoint presentations, extra examples, figures, and support routines
Description based on publisher supplied metadata and other sources
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2020. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries
Link Print version: Semmlow, John Circuits, Signals, and Systems for Bioengineers : A MATLAB-Based Introduction Burlington : Elsevier Science & Technology,c2005 9780120884933
Subject Biomedical engineering.;Electronics
Electronic books
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