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PSPICE and MATLAB for Electronics / John Okyere Attia

Public ISBD Titre : PSPICE and MATLAB for Electronics : An Integrated Approach Type de document : texte imprimé Auteurs : John Okyere Attia, Auteur Mention d'édition : 2nd. ed. Editeur : Boca Raton : CRC Press/Taylor Année de publication : 2010 Importance : 356 p. Présentation : couv. ill. en coul., ill. Format : 24,1 cm. ISBN/ISSN/EAN : 978-1-420-08658-4 Langues : Anglais (eng) Index. décimale : 09-02 Mesures-schémas-circuits éléctroniques Résumé : Used collectively, PSPICE and MATLAB (R) are unsurpassed for circuit modeling and data analysis. PSPICE can perform DC, AC, transient, Fourier, temperature, and Monte Carlo analysis of electronic circuits with device models and subsystem subcircuits. MATLAB can then carry out calculations of device parameters, curve fitting, numerical integration, numerical differentiation, statistical analysis, and two- and three-dimensional plots. PSPICE and MATLAB (R) for Electronics: An Integrated Approach, Second Edition illustrates how to use the strong features of PSPICE and the powerful functions of MATLAB for electronic circuit analysis. After introducing the basic commands and advanced features of PSPICE as well as ORCAD schematics, the author discusses MATLAB fundamentals and functions. He then describes applications of PSPICE and MATLAB for problem solving. Applications covered include diodes, operational amplifiers, and transistor circuits. New to the Second Edition Updated MATLAB topics Schematic capture and text-based PSPICE netlists in several chapters New chapter on PSPICE simulation using the ORCAD schematic capture program New examples and problems, along with a revised bibliography in each chapter This second edition continues to provide an introduction to PSPICE and a simple, hands-on overview of MATLAB. It also demonstrates the combined power of PSPICE and MATLAB for solving electronics problems. The book encourages readers to explore the characteristics of semiconductor devices using PSPICE and MATLAB and apply the two software packages for analyzing electronic circuits and systems. Note de contenu : Table of contents Part I 1.ORCAD PSPICE Capture Fundamentals 2.PSPICE Fundamentals 3.PSPICE Advanced Features Part II 4.MATLAB Fundamentals 5.MATLAB Functions Part III 6.Diode Circuits 7.Operational Amplifier 8.Transistor Characteristics and Circuits -Index PSPICE and MATLAB for Electronics : An Integrated Approach [texte imprimé] / John Okyere Attia, Auteur  . -  2nd. ed. . - Boca Raton : CRC Press/Taylor, 2010 . - 356 p. : couv. ill. en coul., ill. ; 24,1 cm. ISBN : 978-1-420-08658-4 Langues : Anglais (eng) Index. décimale : 09-02 Mesures-schémas-circuits éléctroniques Résumé : Used collectively, PSPICE and MATLAB (R) are unsurpassed for circuit modeling and data analysis. PSPICE can perform DC, AC, transient, Fourier, temperature, and Monte Carlo analysis of electronic circuits with device models and subsystem subcircuits. MATLAB can then carry out calculations of device parameters, curve fitting, numerical integration, numerical differentiation, statistical analysis, and two- and three-dimensional plots. PSPICE and MATLAB (R) for Electronics: An Integrated Approach, Second Edition illustrates how to use the strong features of PSPICE and the powerful functions of MATLAB for electronic circuit analysis. After introducing the basic commands and advanced features of PSPICE as well as ORCAD schematics, the author discusses MATLAB fundamentals and functions. He then describes applications of PSPICE and MATLAB for problem solving. Applications covered include diodes, operational amplifiers, and transistor circuits. New to the Second Edition Updated MATLAB topics Schematic capture and text-based PSPICE netlists in several chapters New chapter on PSPICE simulation using the ORCAD schematic capture program New examples and problems, along with a revised bibliography in each chapter This second edition continues to provide an introduction to PSPICE and a simple, hands-on overview of MATLAB. It also demonstrates the combined power of PSPICE and MATLAB for solving electronics problems. The book encourages readers to explore the characteristics of semiconductor devices using PSPICE and MATLAB and apply the two software packages for analyzing electronic circuits and systems. Note de contenu : Table of contents Part I 1.ORCAD PSPICE Capture Fundamentals 2.PSPICE Fundamentals 3.PSPICE Advanced Features Part II 4.MATLAB Fundamentals 5.MATLAB Functions Part III 6.Diode Circuits 7.Operational Amplifier 8.Transistor Characteristics and Circuits -Index

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1898	09-02-59	Livre	Bibliothèque de Génie Electrique- USTO	Documentaires	Exclu du prêt	1898
2622	09-02-59	Livre	Bibliothèque de Génie Electrique- USTO	Documentaires	Exclu du prêt	2622

Handbook of electric motors / Hamid A. Toliyat

Public ISBD Titre : Handbook of electric motors Type de document : texte imprimé Auteurs : Hamid A. Toliyat, Auteur ; Gerald B. Kliman, Auteur Mention d'édition : 2nd. ed. Editeur : Boca Raton : CRC Press/Taylor Année de publication : 2004 Importance : 805 p. Présentation : couv. ill. en coul., ill. Format : 27,9 cm. ISBN/ISSN/EAN : 978-0-8247-4105-1 Langues : Anglais (eng) Index. décimale : 10-03 Machines éléctriques Résumé : Presenting current issues in electric motor design, installation, application, and performance, this second edition serves as the most authoritative and reliable guide to electric motor utilization and assessment in the commercial and industrial sectors. Covering topics ranging from motor energy and efficiency to computer-aided design and equipment selection, this reference assists professionals in all aspects of electric motor maintenance, repair, and optimization. It has been expanded by more than 40 percent to explore the most influential technologies in the field including electronic controls, superconducting generators, recent analytical tools, new computing capabilities, and special purpose motors. Note de contenu : Contents: 1. Principles of Energy Conversion -general background -magnetic matériels -some basic functions related to electromagnetic fields -magnetic circuits -finite element analysis of magnetic fields -energy stored in magnetically coupled multiple-loop system -forces and torques in the system 2. Types of Motors and Their Characteristics -polyphase synchronous -induction motors-polyphase and single-phase -direct-current motors -electric traction -moters for special application(universal motors....) 3. Motor Selection -standards -characteristics of driven equipment -initial motor selection -motor efficiency and energy considerations -payback analysis and life-cycle consting of motors and controls -safety considerations -how to specify a motor -special applications 4. Induction Motor Analysis and Design -induction motor field analyse -rotor construction -induction motor equivalent circuits -equivalent circuits for variable frequency -important design equations -special induction motor designs -mechanical design -thermal design -computer-aides design of electric machines 5. Synchronous Motor Analysis and Design -flux and flux distribution -armature windings -field windings -damper windings -equivalent circuits -linear synchronous motors -design equations for a synchronous machine -finite element analysis of synchronous machine 6. Direct-Current Motor Analysis and Design -armature windings -commutators -fields poles and windings -equivalent circuit -design equations -DC motors in control systems -permanent magnet DC motors -finite element analysis of DC motors 7. Testing for Performance -polyphase induction motor testing -single-phase induction motors -synchronous motor tests -DC motor tests -hermetically sealed refrigeration motors -specialty testing -selection and application of test equipment 8. Motor Insulation Systems -Random-Wound motors -Form-Wound motors -effect of inverter drives on stator insulation 9. Motor Control -induction motors -direct-current motors -general considerations concerning solid-state converters and controllers -power electronic devices -converter circuits -controllers 10. Motor Protection -protection against overloads -unbalanced voltage protection -protection for internal electrical failures -selection of switching devices -mechanical protection -accessories 11. Mechanical Considerations -noise -vibration -balancing the rotor -bearings -brushes -motor handling, mounting, and mechanical connection 12. Environmental Considerations -heat transfer -cooling of basic motor types -enclosures -thermal circuits -power system quality 13. Reliability -guidelines for successful commutation and brush operation 14. Maintenance -lubrication -maintenance and repair of commutators -brush replacement 15. Electronic Motors -alternating current motor speed control -switched -reluctance machines -Brushless DC motor Appendix A Appendix B Index Handbook of electric motors [texte imprimé] / Hamid A. Toliyat, Auteur ; Gerald B. Kliman, Auteur  . -  2nd. ed. . - Boca Raton : CRC Press/Taylor, 2004 . - 805 p. : couv. ill. en coul., ill. ; 27,9 cm. ISBN : 978-0-8247-4105-1 Langues : Anglais (eng) Index. décimale : 10-03 Machines éléctriques Résumé : Presenting current issues in electric motor design, installation, application, and performance, this second edition serves as the most authoritative and reliable guide to electric motor utilization and assessment in the commercial and industrial sectors. Covering topics ranging from motor energy and efficiency to computer-aided design and equipment selection, this reference assists professionals in all aspects of electric motor maintenance, repair, and optimization. It has been expanded by more than 40 percent to explore the most influential technologies in the field including electronic controls, superconducting generators, recent analytical tools, new computing capabilities, and special purpose motors. Note de contenu : Contents: 1. Principles of Energy Conversion -general background -magnetic matériels -some basic functions related to electromagnetic fields -magnetic circuits -finite element analysis of magnetic fields -energy stored in magnetically coupled multiple-loop system -forces and torques in the system 2. Types of Motors and Their Characteristics -polyphase synchronous -induction motors-polyphase and single-phase -direct-current motors -electric traction -moters for special application(universal motors....) 3. Motor Selection -standards -characteristics of driven equipment -initial motor selection -motor efficiency and energy considerations -payback analysis and life-cycle consting of motors and controls -safety considerations -how to specify a motor -special applications 4. Induction Motor Analysis and Design -induction motor field analyse -rotor construction -induction motor equivalent circuits -equivalent circuits for variable frequency -important design equations -special induction motor designs -mechanical design -thermal design -computer-aides design of electric machines 5. Synchronous Motor Analysis and Design -flux and flux distribution -armature windings -field windings -damper windings -equivalent circuits -linear synchronous motors -design equations for a synchronous machine -finite element analysis of synchronous machine 6. Direct-Current Motor Analysis and Design -armature windings -commutators -fields poles and windings -equivalent circuit -design equations -DC motors in control systems -permanent magnet DC motors -finite element analysis of DC motors 7. Testing for Performance -polyphase induction motor testing -single-phase induction motors -synchronous motor tests -DC motor tests -hermetically sealed refrigeration motors -specialty testing -selection and application of test equipment 8. Motor Insulation Systems -Random-Wound motors -Form-Wound motors -effect of inverter drives on stator insulation 9. Motor Control -induction motors -direct-current motors -general considerations concerning solid-state converters and controllers -power electronic devices -converter circuits -controllers 10. Motor Protection -protection against overloads -unbalanced voltage protection -protection for internal electrical failures -selection of switching devices -mechanical protection -accessories 11. Mechanical Considerations -noise -vibration -balancing the rotor -bearings -brushes -motor handling, mounting, and mechanical connection 12. Environmental Considerations -heat transfer -cooling of basic motor types -enclosures -thermal circuits -power system quality 13. Reliability -guidelines for successful commutation and brush operation 14. Maintenance -lubrication -maintenance and repair of commutators -brush replacement 15. Electronic Motors -alternating current motor speed control -switched -reluctance machines -Brushless DC motor Appendix A Appendix B Index

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3101	10-03-99	Livre	Bibliothèque de Génie Electrique- USTO	Documentaires	Exclu du prêt	3101
3102	10-03-99	Livre	Bibliothèque de Génie Electrique- USTO	Documentaires	Exclu du prêt	3102

The induction machines design handbook / Ion Boldea

Public ISBD Titre : The induction machines design handbook Type de document : texte imprimé Auteurs : Ion Boldea, Auteur ; Syed A. Nasar, Auteur Mention d'édition : 2nd. ed. Editeur : Boca Raton : CRC Press/Taylor Année de publication : 2010 Importance : 827 p. Présentation : couv. ill. en coul., ill. Format : 25.4 cm ISBN/ISSN/EAN : 978-1-420-06668-5 Langues : Anglais (eng) Catégories : ELECTROTECHNIQUE Index. décimale : 10-03 Machines éléctriques Résumé : Developments in power electronics and digital control have made the rugged, low-cost, high-performance induction machine the popular choice of electric generator/motor in many industries. As the induction machine proves to be an efficient power solution for the flexible, distributed systems of the near future, the dynamic worldwide market continues to grow. It is imperative that engineers have a solid grasp of the complex issues of analysis and design associated with these devices. The Induction Machines Design Handbook, Second Edition satisfies this need, providing a comprehensive, self-contained, and up-to-date reference on single- and three-phase induction machines in constant and variable speed applications. Picking up where the first edition left off, this book taps into the authors’ considerable field experience to fortify and summarize the rich existing literature on the subject. Without drastically changing the effective logical structure and content of the original text, this second edition acknowledges notable theoretical and practical developments in the field that have occurred during the eight years since the first publication. It makes corrections and/or improvements to text, formulae, and figures. Note de contenu : Contents: 1 Induction Machines: An Introduction 2 Construction Aspects and Operation Principles 3 Magnetic, Electric, and Insulation Materials for IM 4 Induction Machine Windings and Their MMFs 5 The Magnetization Curve and Inductance 6 Leakage Inductances and Resistances 7 Steady-State Equivalent Circuit and Performance 8 Starting and Speed Control Methods 9 Skin and On-Load Saturation Effects 10 Airgap Field Space Harmonics, Parasitic Torques, Radial Forces, and Noise 11 Losses in Induction Machines 12 Thermal Modeling and Cooling 13 Induction Machine Transients 14 Motor Specifications and Design Principles 15 IM Design Below 100KW and Constant V and f (Size Your Own IM) 16 Induction motor design above 100KW and constant V and f 17 Induction Machine Design for Variable Speed 18 Optimization Design 19 Three Phase Induction Generators 20 Linear Induction motors 21 Super-High Frequency Models and Behavior of IMs 22 Testing of Three-Phase IMs 23 Single-Phase Induction Machines: The Basics 24 Single-Phase Induction Motors: Steady State 25 Single-Phase IM Transients 26 Single-Phase Induction Generators 27 Single-Phase IM Design 28 Single-Phase IM Testing The induction machines design handbook [texte imprimé] / Ion Boldea, Auteur ; Syed A. Nasar, Auteur  . -  2nd. ed. . - Boca Raton : CRC Press/Taylor, 2010 . - 827 p. : couv. ill. en coul., ill. ; 25.4 cm. ISBN : 978-1-420-06668-5 Langues : Anglais (eng) Catégories : ELECTROTECHNIQUE Index. décimale : 10-03 Machines éléctriques Résumé : Developments in power electronics and digital control have made the rugged, low-cost, high-performance induction machine the popular choice of electric generator/motor in many industries. As the induction machine proves to be an efficient power solution for the flexible, distributed systems of the near future, the dynamic worldwide market continues to grow. It is imperative that engineers have a solid grasp of the complex issues of analysis and design associated with these devices. The Induction Machines Design Handbook, Second Edition satisfies this need, providing a comprehensive, self-contained, and up-to-date reference on single- and three-phase induction machines in constant and variable speed applications. Picking up where the first edition left off, this book taps into the authors’ considerable field experience to fortify and summarize the rich existing literature on the subject. Without drastically changing the effective logical structure and content of the original text, this second edition acknowledges notable theoretical and practical developments in the field that have occurred during the eight years since the first publication. It makes corrections and/or improvements to text, formulae, and figures. Note de contenu : Contents: 1 Induction Machines: An Introduction 2 Construction Aspects and Operation Principles 3 Magnetic, Electric, and Insulation Materials for IM 4 Induction Machine Windings and Their MMFs 5 The Magnetization Curve and Inductance 6 Leakage Inductances and Resistances 7 Steady-State Equivalent Circuit and Performance 8 Starting and Speed Control Methods 9 Skin and On-Load Saturation Effects 10 Airgap Field Space Harmonics, Parasitic Torques, Radial Forces, and Noise 11 Losses in Induction Machines 12 Thermal Modeling and Cooling 13 Induction Machine Transients 14 Motor Specifications and Design Principles 15 IM Design Below 100KW and Constant V and f (Size Your Own IM) 16 Induction motor design above 100KW and constant V and f 17 Induction Machine Design for Variable Speed 18 Optimization Design 19 Three Phase Induction Generators 20 Linear Induction motors 21 Super-High Frequency Models and Behavior of IMs 22 Testing of Three-Phase IMs 23 Single-Phase Induction Machines: The Basics 24 Single-Phase Induction Motors: Steady State 25 Single-Phase IM Transients 26 Single-Phase Induction Generators 27 Single-Phase IM Design 28 Single-Phase IM Testing

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3314	10-03-114	Livre	Bibliothèque de Génie Electrique- USTO	Documentaires	Exclu du prêt	3314
3315	10-03-114	Livre	Bibliothèque de Génie Electrique- USTO	Documentaires	Exclu du prêt	3315

Numerical Techniques in Electromagnetics with MATLAB / Matthew N. O. Sadiku

Public ISBD Titre : Numerical Techniques in Electromagnetics with MATLAB Type de document : texte imprimé Auteurs : Matthew N. O. Sadiku, Auteur Mention d'édition : 3 rd. ed. Editeur : Boca Raton : CRC Press/Taylor Année de publication : 2009 Importance : 710 p. Présentation : couv. ill.,ill. Format : 24,1 cm. ISBN/ISSN/EAN : 978-1-420-06309-7 Langues : Anglais (eng) Index. décimale : 10-06 Electromagnétisme Résumé : Despite the dramatic growth in the availability of powerful computer resources, the EM community lacks a comprehensive text on the computational techniques used to solve EM problems. The first edition of Numerical Techniques in Electromagnetics filled that gap and became the reference of choice for thousands of engineers, researchers, and students. This third edition of the bestselling text reflects the continuing increase in awareness and use of numerical techniques and incorporates advances and refinements made in recent years. Most notable among these are the improvements made to the standard algorithm for the finite-difference time-domain (FDTD) method and treatment of absorbing boundary conditions in FDTD, finite element, and transmission-line-matrix methods. The author also has added a chapter on the method of lines. Numerical Techniques in Electromagnetics with MATLAB®, Third Edition continues to teach readers how to pose, numerically analyze, and solve EM problems, to give them the ability to expand their problem-solving skills using a variety of methods, and to prepare them for research in electromagnetism. Now the Third Edition goes even further toward providing a comprehensive resource that addresses all of the most useful computation methods for EM problems and includes MATLAB code instead of FORTRAN. Note de contenu : Contents: 1 Fundamental Concepts 1.1 Introduction 1.2 Review of Electromagnetic Theory 1.3 Classification of EM Problems 1.4 Some Important Theorems 2 Analytical Methods 2.1 Introduction 2.2 Separation of Variables 2.3 Separation of Variables in Rectangular Coordinates 2.4 Separation of Variables in Cylindrical Coordinates 2.5 Separation of Variables in Spherical Coordinates 2.6 Some Useful Orthogonal Functions 2.7 Series Expansion 2.8 Practical Applications 2.9 Attenuation Due to Raindrops 2.10 Concluding Remarks 3 Finite Difference Methods 3.1 Introduction 3.2 Finite Difference Schemes 3.3 Finite Differencing of Parabolic PDEs 3.4 Finite Differencing of Hyperbolic PDEs 3.5 Finite Differencing of Elliptic PDEs 3.6 Accuracy and Stability of FD Solutions 3.7 Practical Applications I - Guided Structures 3.8 Practical Applications II - Wave Scattering (FDTD) 3.9 Absorbing Boundary Conditions for FDTD 3.10 Finite Differencing for Nonrectangular Systems 3.11 Numerical Integration 3.12 Concluding Remarks 4 Variational Methods 4.1 Introduction 4.2 Operators in Linear Spaces 4.3 Calculus of Variations 4.4 Construction of Functionals from PDEs 4.5 Rayleigh-Ritz Method 4.6 Weighted Residual Method 4.7 Eigenvalue Problems 4.8 Practical Applications 4.9 Concluding Remarks 5 Moment Methods 5.1 Introduction 5.2 Integral Equations 5.3 Green's Functions 5.4 Applications I - Quasi-Static Problems 5.5 Applications II - Scattering Problems 5.6 Applications III- Radiation Problems 5.7 Applications IV - EM Absorption in the Human Body 5.8 Concluding Remarks 6 Finite Element Method 6.1 Introduction 6.2 Solution of Laplace's Equation 6.3 Solution of Poisson's Equation 6.4 Solution of the Wave Equation 6.5 Automatic Mesh Generation I - Rectangular Domains 6.6 Automatic Mesh Generation II - Arbitrary Domains 6.7 Bandwidth Reduction 6.8 Higher Order Elements 6.9 Three-Dimensional Elements 6.10 Finite Element Methods for Exterior Problems 6.11 Finite-Element Time-Domain Method 6.12 Concluding Remarks 7 Transmission-line-matrix Method 7.1 Introduction 7.2 Transmission-line Equations 7.3 Solution of Diffusion Equation 7.4 Solution of Wave Equations 7.5 Inhomogeneous and Lossy Media in TLM 7.6 Three-Dimensional TLM Mesh 7.7 Error Sources and Correction 7.8 Absorbing Boundary Conditions 7.9 Concluding Remarks 8 Monte Carlo Methods 8.1 Introduction 8.2 Generation of Random Numbers and Variables 8.3 Evaluation of Error 8.4 Numerical Integration 8.5 Solution of Potential Problems 8.6 Regional Monte Carlo Methods 8.7 Time-Dependent Problems 8.8 Concluding Remarks 9 Method of Lines 9.1 Introduction 9.2 Solution of Laplace's Equation 9.3 Solution of Wave Equation 9.4 Time-Domain Solution 9.5 Concluding Remarks APPENDICES Vector Relations - Programming in MATLAB - Solution of Simultaneous Equations - Answers to Odd-Numbered Problems Numerical Techniques in Electromagnetics with MATLAB [texte imprimé] / Matthew N. O. Sadiku, Auteur  . -  3 rd. ed. . - Boca Raton : CRC Press/Taylor, 2009 . - 710 p. : couv. ill.,ill. ; 24,1 cm. ISBN : 978-1-420-06309-7 Langues : Anglais (eng) Index. décimale : 10-06 Electromagnétisme Résumé : Despite the dramatic growth in the availability of powerful computer resources, the EM community lacks a comprehensive text on the computational techniques used to solve EM problems. The first edition of Numerical Techniques in Electromagnetics filled that gap and became the reference of choice for thousands of engineers, researchers, and students. This third edition of the bestselling text reflects the continuing increase in awareness and use of numerical techniques and incorporates advances and refinements made in recent years. Most notable among these are the improvements made to the standard algorithm for the finite-difference time-domain (FDTD) method and treatment of absorbing boundary conditions in FDTD, finite element, and transmission-line-matrix methods. The author also has added a chapter on the method of lines. Numerical Techniques in Electromagnetics with MATLAB®, Third Edition continues to teach readers how to pose, numerically analyze, and solve EM problems, to give them the ability to expand their problem-solving skills using a variety of methods, and to prepare them for research in electromagnetism. Now the Third Edition goes even further toward providing a comprehensive resource that addresses all of the most useful computation methods for EM problems and includes MATLAB code instead of FORTRAN. Note de contenu : Contents: 1 Fundamental Concepts 1.1 Introduction 1.2 Review of Electromagnetic Theory 1.3 Classification of EM Problems 1.4 Some Important Theorems 2 Analytical Methods 2.1 Introduction 2.2 Separation of Variables 2.3 Separation of Variables in Rectangular Coordinates 2.4 Separation of Variables in Cylindrical Coordinates 2.5 Separation of Variables in Spherical Coordinates 2.6 Some Useful Orthogonal Functions 2.7 Series Expansion 2.8 Practical Applications 2.9 Attenuation Due to Raindrops 2.10 Concluding Remarks 3 Finite Difference Methods 3.1 Introduction 3.2 Finite Difference Schemes 3.3 Finite Differencing of Parabolic PDEs 3.4 Finite Differencing of Hyperbolic PDEs 3.5 Finite Differencing of Elliptic PDEs 3.6 Accuracy and Stability of FD Solutions 3.7 Practical Applications I - Guided Structures 3.8 Practical Applications II - Wave Scattering (FDTD) 3.9 Absorbing Boundary Conditions for FDTD 3.10 Finite Differencing for Nonrectangular Systems 3.11 Numerical Integration 3.12 Concluding Remarks 4 Variational Methods 4.1 Introduction 4.2 Operators in Linear Spaces 4.3 Calculus of Variations 4.4 Construction of Functionals from PDEs 4.5 Rayleigh-Ritz Method 4.6 Weighted Residual Method 4.7 Eigenvalue Problems 4.8 Practical Applications 4.9 Concluding Remarks 5 Moment Methods 5.1 Introduction 5.2 Integral Equations 5.3 Green's Functions 5.4 Applications I - Quasi-Static Problems 5.5 Applications II - Scattering Problems 5.6 Applications III- Radiation Problems 5.7 Applications IV - EM Absorption in the Human Body 5.8 Concluding Remarks 6 Finite Element Method 6.1 Introduction 6.2 Solution of Laplace's Equation 6.3 Solution of Poisson's Equation 6.4 Solution of the Wave Equation 6.5 Automatic Mesh Generation I - Rectangular Domains 6.6 Automatic Mesh Generation II - Arbitrary Domains 6.7 Bandwidth Reduction 6.8 Higher Order Elements 6.9 Three-Dimensional Elements 6.10 Finite Element Methods for Exterior Problems 6.11 Finite-Element Time-Domain Method 6.12 Concluding Remarks 7 Transmission-line-matrix Method 7.1 Introduction 7.2 Transmission-line Equations 7.3 Solution of Diffusion Equation 7.4 Solution of Wave Equations 7.5 Inhomogeneous and Lossy Media in TLM 7.6 Three-Dimensional TLM Mesh 7.7 Error Sources and Correction 7.8 Absorbing Boundary Conditions 7.9 Concluding Remarks 8 Monte Carlo Methods 8.1 Introduction 8.2 Generation of Random Numbers and Variables 8.3 Evaluation of Error 8.4 Numerical Integration 8.5 Solution of Potential Problems 8.6 Regional Monte Carlo Methods 8.7 Time-Dependent Problems 8.8 Concluding Remarks 9 Method of Lines 9.1 Introduction 9.2 Solution of Laplace's Equation 9.3 Solution of Wave Equation 9.4 Time-Domain Solution 9.5 Concluding Remarks APPENDICES Vector Relations - Programming in MATLAB - Solution of Simultaneous Equations - Answers to Odd-Numbered Problems

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2504	10-06-34	Livre	Bibliothèque de Génie Electrique- USTO	Documentaires	Exclu du prêt	2504
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Biomedical Engineering Principles / Arthur B. Ritter

Public ISBD Titre : Biomedical Engineering Principles Type de document : texte imprimé Auteurs : Arthur B. Ritter, Auteur ; Vikki Hazelwood, Auteur ; Antonio Valdevit, Auteur Mention d'édition : 1er + 2 ème ed. Editeur : Boca Raton : CRC Press/Taylor Année de publication : 2005 Importance : 516 p. Présentation : couv. ill. en coul., ill. Format : 23,5 cm. ISBN/ISSN/EAN : 978-1-439-81232-7 Langues : Anglais (eng) Index. décimale : 35-01 Génie biomédical général Résumé : Current demand in biomedical sciences emphasizes the understanding of basic mechanisms and problem solving rather than rigid empiricism and factual recall. Knowledge of the basic laws of mass and momentum transport as well as model development and validation, biomedical signal processing, biomechanics, and capstone design have indispensable roles in the engineering analysis of physiological processes. To this end, an introductory, multidisciplinary text is a must to provide the necessary foundation for beginning biomedical students. Assuming no more than a passing acquaintance with molecular biology, physiology, biochemistry, and signal processing, Biomedical Engineering Principles, Second Edition provides just such a solid, accessible grounding to this rapidly advancing field. Acknowledging the vast range of backgrounds and prior education from which the biomedical field draws, the organization of this book lends itself to a tailored course specific to the experience and interests of the student. Divided into four sections, the book begins with systems physiology, transport processes, cell physiology, and the cardiovascular system. Part I covers systems analysis, biological data, and modeling and simulation in experimental design, applying concepts of diffusion, and facilitated and active transport. Part II presents biomedical signal processing, reviewing frequency, periodic functions, and Fourier series as well as signal acquisition and processing techniques. Part III presents the practical applications of biomechanics, focusing on the mechanical and structural properties of bone, musculoskeletal, and connective tissue with respect to joint range, load bearing capacity, and electrical stimulation. The final part highlights capstone design, discussing design perspectives for living and nonliving systems, the role of the FDA, and the project timeline from inception to proof of concept. Cutting across many disciplines, Biomedical Engineering Principles, Second Edition offers illustrative examples as well as problems and discussion questions designed specifically for this book to provide a readily accessible, widely applicable introductory text. Note de contenu : Contents Part 1 Systems Physiology, Transport Processes, Cell Physiology, and the cardiovascular system 1. a system approach to Physiology 2. Modeling of physiological processes 3. Cell Physiology and Transport 4. Principles and Biomedical Applications of Hemodynamics 5. The Cardiovascular System Part 2 Signal Processing 6. Biomedical Signals Processing 7. Fourier Series 8. DSP System Level Concepts and Digital Filter Implementations 9. Techniques for Physiological Signal Processing Part 3 Biomechanics 10. Biomechanics: Bone 11. Structure and Function of Musculoskeletal Tissues, Connective tissue, and Spine Part IV Capstone Design 12 Biomedical Engineering and Design 13 A Capstone Design Curriculum for Biomedical Engineers Appendix A: Selected Reference Values Appendix B: The Continuity Equation and the Equations of Motion in several coordinate systems Appendix C: Frequency Components of Pressure Wave Index Biomedical Engineering Principles [texte imprimé] / Arthur B. Ritter, Auteur ; Vikki Hazelwood, Auteur ; Antonio Valdevit, Auteur  . -  1er + 2 ème ed. . - Boca Raton : CRC Press/Taylor, 2005 . - 516 p. : couv. ill. en coul., ill. ; 23,5 cm. ISBN : 978-1-439-81232-7 Langues : Anglais (eng) Index. décimale : 35-01 Génie biomédical général Résumé : Current demand in biomedical sciences emphasizes the understanding of basic mechanisms and problem solving rather than rigid empiricism and factual recall. Knowledge of the basic laws of mass and momentum transport as well as model development and validation, biomedical signal processing, biomechanics, and capstone design have indispensable roles in the engineering analysis of physiological processes. To this end, an introductory, multidisciplinary text is a must to provide the necessary foundation for beginning biomedical students. Assuming no more than a passing acquaintance with molecular biology, physiology, biochemistry, and signal processing, Biomedical Engineering Principles, Second Edition provides just such a solid, accessible grounding to this rapidly advancing field. Acknowledging the vast range of backgrounds and prior education from which the biomedical field draws, the organization of this book lends itself to a tailored course specific to the experience and interests of the student. Divided into four sections, the book begins with systems physiology, transport processes, cell physiology, and the cardiovascular system. Part I covers systems analysis, biological data, and modeling and simulation in experimental design, applying concepts of diffusion, and facilitated and active transport. Part II presents biomedical signal processing, reviewing frequency, periodic functions, and Fourier series as well as signal acquisition and processing techniques. Part III presents the practical applications of biomechanics, focusing on the mechanical and structural properties of bone, musculoskeletal, and connective tissue with respect to joint range, load bearing capacity, and electrical stimulation. The final part highlights capstone design, discussing design perspectives for living and nonliving systems, the role of the FDA, and the project timeline from inception to proof of concept. Cutting across many disciplines, Biomedical Engineering Principles, Second Edition offers illustrative examples as well as problems and discussion questions designed specifically for this book to provide a readily accessible, widely applicable introductory text. Note de contenu : Contents Part 1 Systems Physiology, Transport Processes, Cell Physiology, and the cardiovascular system 1. a system approach to Physiology 2. Modeling of physiological processes 3. Cell Physiology and Transport 4. Principles and Biomedical Applications of Hemodynamics 5. The Cardiovascular System Part 2 Signal Processing 6. Biomedical Signals Processing 7. Fourier Series 8. DSP System Level Concepts and Digital Filter Implementations 9. Techniques for Physiological Signal Processing Part 3 Biomechanics 10. Biomechanics: Bone 11. Structure and Function of Musculoskeletal Tissues, Connective tissue, and Spine Part IV Capstone Design 12 Biomedical Engineering and Design 13 A Capstone Design Curriculum for Biomedical Engineers Appendix A: Selected Reference Values Appendix B: The Continuity Equation and the Equations of Motion in several coordinate systems Appendix C: Frequency Components of Pressure Wave Index

Exemplaires

Code-barres	Cote	Support	Localisation	Section	Disponibilité	N.Inventaire
1553	35-01-01	Livre	Bibliothèque de Génie Electrique- USTO	Documentaires	Exclu du prêt	1553
2683	35-01-01	Livre	Bibliothèque de Génie Electrique- USTO	Documentaires	Exclu du prêt	2683

Embedded Systems and Wireless Technology / Raul Aquino Santos

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