Titre :	Signals and systems for bioengineers : a MATLAB-based introduction
Type de document :	texte imprimé
Auteurs :	John Semmlow, Auteur
Mention d'édition :	2nd. ed.
Editeur :	Amsterdam,Boston,Heidelberg... : Elsevier Academic Press
Année de publication :	2012
Collection :	Academic Press Series in Biomedical Engineering
Importance :	591p.
Présentation :	couv. ill. en coul., ill.
Format :	24 cm.
ISBN/ISSN/EAN :	978-0-12-384982-3
Langues :	Français (fre)
Catégories :	GÉNIE BIOMÉDICAL
Index. décimale :	35-04 Modélisation des systèmes physiologiques
Résumé :	This book guides the reader through the electrical engineering principles that can be applied to biological systems and are therefore important to biomedical studies. The basic engineering concepts that underlie biomedical systems, medical devices, biocontrol, and biosignal analysis are explained in detail. This textbook is perfect for the one-semester bioengineering course usually offered in conjunction with a laboratory on signals and measurements which presents the fundamentals of systems and signal analysis. The target course occupies a pivotal position in the bioengineering curriculum and will play a critical role in the future development of bioengineering students. There are extensive questions and problems that are available through a companion site to enhance the learning experience. New to this edition: Reorganized to emphasize signal and system analysis Increased coverage of time-domain signal analysis Expanded coverage of biomeasurement, using examples in ultrasound and electrophysiology New applications in biocontrol, with examples from physiological systems modeling such as the respiratory system Double the number of Matlab and non-Matlab exercises to provide ample practice solving problems - by hand and with computational tools More Biomedical and real-world examples More biomedical figures throughout For instructors using this text in their course, accompanying website includes support materials such as MATLAB data and functions needed to solve the problems, a few helpful routines, and all of the MATLAB examples. Visit www.elsevierdirect.com and search "Semmlow."
Note de contenu :	Contents: I. SIGNALS 1. The Big Picture: Bioengineering Signals and Systems 2. Basic Concepts in Signal Processing 3. Fourier Transform: Introduction 4. The Fourier Transform and Power Spectrum: Implications and Applications II. SYSTEMS 5. Linear Systems in the Frequency Domain: The Transfer Function 6. Linear Systems Analysis in the Complex Frequency Domain: the laplace transform and the analysis of transients 7. Linear Systems Analysis in the Time Domain: Convolution and Simulation 8. Linear System Analysis: Applications III. CIRCUITS 9. Circuit Elements and Circuit Variables 10. Analysis of Analog Circuits and Models 11. Circuit Reduction: Simplifications 12. Basic Analog Electronics: Operational Amplifiers A: Derivations B: Laplace Transforms and Properties of the Fourier Transform C: Trigonometric and Other Formulae D: Conversion Factors: Units E: Complex Arithmetic F: LF356 Specifications G: Determinants and Cramer’s Rule Bibliography Index

Signals and systems for bioengineers : a MATLAB-based introduction [texte imprimé] / John Semmlow, Auteur  . -  2nd. ed. . - Amsterdam,Boston,Heidelberg... : Elsevier Academic Press, 2012 . - 591p. : couv. ill. en coul., ill. ; 24 cm.. - (Academic Press Series in Biomedical Engineering) .
ISBN : 978-0-12-384982-3
Langues : Français (fre)

Catégories :	GÉNIE BIOMÉDICAL
Index. décimale :	35-04 Modélisation des systèmes physiologiques
Résumé :	This book guides the reader through the electrical engineering principles that can be applied to biological systems and are therefore important to biomedical studies. The basic engineering concepts that underlie biomedical systems, medical devices, biocontrol, and biosignal analysis are explained in detail. This textbook is perfect for the one-semester bioengineering course usually offered in conjunction with a laboratory on signals and measurements which presents the fundamentals of systems and signal analysis. The target course occupies a pivotal position in the bioengineering curriculum and will play a critical role in the future development of bioengineering students. There are extensive questions and problems that are available through a companion site to enhance the learning experience. New to this edition: Reorganized to emphasize signal and system analysis Increased coverage of time-domain signal analysis Expanded coverage of biomeasurement, using examples in ultrasound and electrophysiology New applications in biocontrol, with examples from physiological systems modeling such as the respiratory system Double the number of Matlab and non-Matlab exercises to provide ample practice solving problems - by hand and with computational tools More Biomedical and real-world examples More biomedical figures throughout For instructors using this text in their course, accompanying website includes support materials such as MATLAB data and functions needed to solve the problems, a few helpful routines, and all of the MATLAB examples. Visit www.elsevierdirect.com and search "Semmlow."
Note de contenu :	Contents: I. SIGNALS 1. The Big Picture: Bioengineering Signals and Systems 2. Basic Concepts in Signal Processing 3. Fourier Transform: Introduction 4. The Fourier Transform and Power Spectrum: Implications and Applications II. SYSTEMS 5. Linear Systems in the Frequency Domain: The Transfer Function 6. Linear Systems Analysis in the Complex Frequency Domain: the laplace transform and the analysis of transients 7. Linear Systems Analysis in the Time Domain: Convolution and Simulation 8. Linear System Analysis: Applications III. CIRCUITS 9. Circuit Elements and Circuit Variables 10. Analysis of Analog Circuits and Models 11. Circuit Reduction: Simplifications 12. Basic Analog Electronics: Operational Amplifiers A: Derivations B: Laplace Transforms and Properties of the Fourier Transform C: Trigonometric and Other Formulae D: Conversion Factors: Units E: Complex Arithmetic F: LF356 Specifications G: Determinants and Cramer’s Rule Bibliography Index