Circuits, Signals and Systems for Bioengineers
A MATLAB-Based Introduction
- 4th Edition - September 1, 2024
- Author: John Semmlow
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 1 5 8 8 6 - 5
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 1 5 8 8 7 - 2
Circuits, Signals, and Systems for Bioengineers: A MATLAB-Based Introduction, Fourth Edition, guides the reader through the electrical engineering principles that can be applied to… Read more
Purchase options
Institutional subscription on ScienceDirect
Request a sales quoteCircuits, Signals, and Systems for Bioengineers: A MATLAB-Based Introduction, Fourth Edition, guides the reader through the electrical engineering principles that can be applied to biological systems. It details the basic engineering concepts that underlie biomedical systems, medical devices, biocontrol, and biomedical signal analysis, providing a solid foundation for students in important bioengineering concepts. Fully revised and updated to better meet the needs of instructors and students, the fourth edition expands on concepts introduced in the previous edition through computational methods that allow students to explore operations, such as correlations, convolution, the Fourier transform, and the transfer function. New medical examples and applications are included throughout the text.
- Covers current applications in biocontrol, with examples from physiological systems modeling, such as the respiratory system
- Features revised material throughout, with improved clarity of presentation and more biological, physiological, and medical examples and applications
- Includes support materials, such as solutions, lecture slides, MATLAB data, and functions needed to solve problems
Biomedical engineering students Practicing medical technicians, mechanical engineers, and electrical engineers
Part I - SIGNALS
1. The Big Picture: Bioengineering Signals and Systems
2. Signal Analysis in the Time Domain
3. Signal Analysis in the Frequency Domain: The Fourier Series and the Fourier Transformation
4. Signal Analysis in the Frequency Domain - Implications and Applications
Part II - SYSTEMS
5. Linear Systems Analysis in the Time Domain - Convolution
6. Linear Systems Analysis in the Frequency Domain: The Transfer Function
7. Linear Systems in the Complex Frequency Domain: The Laplace Transform
8. Analysis of Discrete Linear Systems - The z-Transform and Applications to Filters
9. System Modeling and Simulink
10. Stochastic, Nonstationary, and Nonlinear Systems and Signals
11. Two-Dimensional Signals - Basic Image Analysis
PART III - CIRCUITS
12. Circuits Elements and Circuit Variables
13. Analysis of Analog Circuits and Models
14. Circuit Reduction - Simplifications
15. Basic Analog Electronics - Operational Amplifiers
APPENDICES
A, Derivations
B. Laplace Transforms and Properties of the Fourier Transform
C. Trigonometric and Other Formulae
D. Conversion Factors
E. Complex Numbers
F. LF356 Specifications
G. Determinants and Cramer's Rule
1. The Big Picture: Bioengineering Signals and Systems
2. Signal Analysis in the Time Domain
3. Signal Analysis in the Frequency Domain: The Fourier Series and the Fourier Transformation
4. Signal Analysis in the Frequency Domain - Implications and Applications
Part II - SYSTEMS
5. Linear Systems Analysis in the Time Domain - Convolution
6. Linear Systems Analysis in the Frequency Domain: The Transfer Function
7. Linear Systems in the Complex Frequency Domain: The Laplace Transform
8. Analysis of Discrete Linear Systems - The z-Transform and Applications to Filters
9. System Modeling and Simulink
10. Stochastic, Nonstationary, and Nonlinear Systems and Signals
11. Two-Dimensional Signals - Basic Image Analysis
PART III - CIRCUITS
12. Circuits Elements and Circuit Variables
13. Analysis of Analog Circuits and Models
14. Circuit Reduction - Simplifications
15. Basic Analog Electronics - Operational Amplifiers
APPENDICES
A, Derivations
B. Laplace Transforms and Properties of the Fourier Transform
C. Trigonometric and Other Formulae
D. Conversion Factors
E. Complex Numbers
F. LF356 Specifications
G. Determinants and Cramer's Rule
- No. of pages: 782
- Language: English
- Edition: 4
- Published: September 1, 2024
- Imprint: Academic Press
- Paperback ISBN: 9780443158865
JS
John Semmlow
John Semmlow was a professor in the Department of Biomedical Engineering of Rutgers University and in the Department of Surgery of Robert Wood Johnson Medical School UMDNJ for 32 years. Over that period he published over 100 review journal articles and has been appointed a Fellow of the IEEE, the AIMBE, and the BMES. He retired in June of 2010, but still remains active in research, particularly cardiovascular diagnosis and human motor control. He is actively pursuing a ‘second career’ as an artist, designing and building computer controlled kinetic art: sculptures that move in interesting and intriguing ways.
Affiliations and expertise
Rutgers University and Robert Wood Johnson Medical School-University of Medicine & Dentistry of New Jersey, New Brunswick, USA