IMS : a development and deployment perspective / / Khalid Al-Begain ... [et al.] |
Pubbl/distr/stampa | Chichester, West Sussex, U.K. : , : J. Wiley, , 2009 |
Descrizione fisica | 1 online resource (318 p.) |
Disciplina | 006.7 |
Altri autori (Persone) | Al-BegainKhalid |
Soggetto topico |
Multimedia communications
Telecommunication systems |
ISBN |
1-282-27991-2
9786612279911 0-470-75000-6 0-470-75001-4 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Preface. -- Author Biographies. -- Part I Introduction. -- 1 IMS Context. -- 1.1 Drivers of Convergence. -- 1.2 IMS Misconceptions. -- 1.3 IMS Standards Status. -- 1.4 IMS Deployment Status. -- 1.5 Future. -- 2 IMS Technology. -- 2.1 Evolution of Mobile Network Architecture. -- 2.2 IMS - A Standardized All-IP Infrastructure. -- 2.3 Evolution of Fixed Mobile Convergence. -- Part II Convergence - Services and Deployment Perspective. -- 3 IMS - A Service Perspective. -- 3.1 The IMS Potential. -- 3.2 IMS-Enhanced Service Delivery Framework. -- 3.3 IMS Services - Possibilities. -- 4 IMS Deployment. -- 4.1 Deployment Concerns. -- 4.2 Interoperability. -- 4.3 IMS Deployment Strategies. -- 4.4 IMS Test Networks. -- Part III Convergence - The Road Ahead. -- 5 WIMS 2.0: Convergence of Telcos with web 2.0 Facilitated by IMS. -- 5.1 Impact of Web 2.0 Disruption on the IMS and Telecom Evolution. -- 5.2 WIMS 2.0: The Service Focus. -- 5.3 WIMS 2.0: The Technology Focus. -- 6 The Way Forward - Paths to Follow. -- 6.1 Operators and Service Platforms. -- 6.2 Developers and Service Creation. -- 6.3 Users and Service Creation. -- 6.4 Devices and Service Creation. -- 6.5 Research and Development. -- 6.6 Concluding Remarks. -- References. -- Index. |
Record Nr. | UNINA-9910827222803321 |
Chichester, West Sussex, U.K. : , : J. Wiley, , 2009 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
In search of leaders / Hilarie Owen |
Autore | OWEN, Hilarie |
Pubbl/distr/stampa | Chichester : J. Wiley, c2000 |
Descrizione fisica | XXIII, 168 p. ; 23 cm |
Soggetto topico | Leadership |
ISBN | 0471491977 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISA-990002801670203316 |
OWEN, Hilarie | ||
Chichester : J. Wiley, c2000 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. di Salerno | ||
|
Independent component analysis / Aapo Hyvärinen, Juha Karhunen, Erkki Oja |
Autore | Hyvarinen, Aapo |
Pubbl/distr/stampa | New York : J. Wiley, c2001 |
Descrizione fisica | xxi, 481 p. : ill. ; 25 cm |
Disciplina | 519.535 |
Altri autori (Persone) |
Karhunen, Juhaauthor
Oja, Erkkiauthor |
Collana | Adaptive and learning systems for signal processing, communications, and control |
Soggetto topico |
Multivariate analysis
Principal components analysis |
ISBN | 047140540X |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISALENTO-991004128879707536 |
Hyvarinen, Aapo | ||
New York : J. Wiley, c2001 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. del Salento | ||
|
Independent component analysis [[electronic resource] /] / Aapo Hyvärinen, Juha Karhunen, Erkki Oja |
Autore | Hyvärinen Aapo |
Pubbl/distr/stampa | New York, : J. Wiley, c2001 |
Descrizione fisica | 1 online resource (505 p.) |
Disciplina |
519.5
519.5/35 519.535 |
Altri autori (Persone) |
KarhunenJuha
OjaErkki |
Collana | Adaptive and learning systems for signal processing, communications, and control |
Soggetto topico |
Multivariate analysis
Principal components analysis |
ISBN |
1-280-26480-2
9786610264803 0-470-30861-3 0-471-46419-8 0-471-22131-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Contents; Preface; 1 Introduction; 1.1 Linear representation of multivariate data; 1.1.1 The general statistical setting; 1.1.2 Dimension reduction methods; 1.1.3 Independence as a guiding principle; 1.2 Blind source separation; 1.2.1 Observing mixtures of unknown signals; 1.2.2 Source separation based on independence; 1.3 Independent component analysis; 1.3.1 Definition; 1.3.2 Applications; 1.3.3 How to find the independent components; 1.4 History of ICA; Part I: MATHEMATICAL PRELIMINARIES; 2 Random Vectors and Independence; 2.1 Probability distributions and densities
2.2 Expectations and moments2.3 Uncorrelatedness and independence; 2.4 Conditional densities and Bayes' rule; 2.5 The multivariate gaussian density; 2.6 Density of a transformation; 2.7 Higher-order statistics; 2.8 Stochastic processes *; 2.9 Concluding remarks and references; Problems; 3 Gradients and Optimization Methods; 3.1 Vector and matrix gradients; 3.2 Learning rules for unconstrained optimization; 3.3 Learning rules for constrained optimization; 3.4 Concluding remarks and references; Problems; 4 Estimation Theory; 4.1 Basic concepts; 4.2 Properties of estimators 4.3 Method of moments4.4 Least-squares estimation; 4.5 Maximum likelihood method; 4.6 Bayesian estimation *; 4.7 Concluding remarks and references; Problems; 5 Information Theory; 5.1 Entropy; 5.2 Mutual information; 5.3 Maximum entropy; 5.4 Negentropy; 5.5 Approximation of entropy by cumulants; 5.6 Approximation of entropy by nonpolynomial functions; 5.7 Concluding remarks and references; Problems; Appendix proofs; 6 Principal Component Analysis and Whitening; 6.1 Principal components; 6.2 PCA by on-line learning; 6.3 Factor analysis; 6.4 Whitening; 6.5 Orthogonalization 6.6 Concluding remarks and referencesProblems; Part II: BASIC INDEPENDENT COMPONENT ANALYSIS; 7 What is Independent Component Analysis?; 7.1 Motivation; 7.2 Definition of independent component analysis; 7.3 Illustration of ICA; 7.4 ICA is stronger that whitening; 7.5 Why gaussian variables are forbidden; 7.6 Concluding remarks and references; Problems; 8 ICA by Maximization of Nongaussianity; 8.1 ""Nongaussian is independent""; 8.2 Measuring nongaussianity by kurtosis; 8.3 Measuring nongaussianity by negentropy; 8.4 Estimating several independent components; 8.5 ICA and projection pursuit 8.6 Concluding remarks and referencesProblems; Appendix proofs; 9 ICA by Maximum Likelihood Estimation; 9.1 The likelihood of the ICA model; 9.2 Algorithms for maximum likelihood estimation; 9.3 The infomax principle; 9.4 Examples; 9.5 Concluding remarks and references; Problems; Appendix proofs; 10 ICA by Minimization of Mutual Information; 10.1 Defining ICA by mutual information; 10.2 Mutual information and nongaussianity; 10.3 Mutual information and likelihood; 10.4 Algorithms for minimization of mutual information; 10.5 Examples; 10.6 Concluding remarks and references; Problems 11 ICA by Tensorial Methods |
Record Nr. | UNISA-996201887503316 |
Hyvärinen Aapo | ||
New York, : J. Wiley, c2001 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. di Salerno | ||
|
Independent component analysis [[electronic resource] /] / Aapo Hyvärinen, Juha Karhunen, Erkki Oja |
Autore | Hyvärinen Aapo |
Pubbl/distr/stampa | New York, : J. Wiley, c2001 |
Descrizione fisica | 1 online resource (505 p.) |
Disciplina |
519.5
519.5/35 519.535 |
Altri autori (Persone) |
KarhunenJuha
OjaErkki |
Collana | Adaptive and learning systems for signal processing, communications, and control |
Soggetto topico |
Multivariate analysis
Principal components analysis |
ISBN |
1-280-26480-2
9786610264803 0-470-30861-3 0-471-46419-8 0-471-22131-7 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Contents; Preface; 1 Introduction; 1.1 Linear representation of multivariate data; 1.1.1 The general statistical setting; 1.1.2 Dimension reduction methods; 1.1.3 Independence as a guiding principle; 1.2 Blind source separation; 1.2.1 Observing mixtures of unknown signals; 1.2.2 Source separation based on independence; 1.3 Independent component analysis; 1.3.1 Definition; 1.3.2 Applications; 1.3.3 How to find the independent components; 1.4 History of ICA; Part I: MATHEMATICAL PRELIMINARIES; 2 Random Vectors and Independence; 2.1 Probability distributions and densities
2.2 Expectations and moments2.3 Uncorrelatedness and independence; 2.4 Conditional densities and Bayes' rule; 2.5 The multivariate gaussian density; 2.6 Density of a transformation; 2.7 Higher-order statistics; 2.8 Stochastic processes *; 2.9 Concluding remarks and references; Problems; 3 Gradients and Optimization Methods; 3.1 Vector and matrix gradients; 3.2 Learning rules for unconstrained optimization; 3.3 Learning rules for constrained optimization; 3.4 Concluding remarks and references; Problems; 4 Estimation Theory; 4.1 Basic concepts; 4.2 Properties of estimators 4.3 Method of moments4.4 Least-squares estimation; 4.5 Maximum likelihood method; 4.6 Bayesian estimation *; 4.7 Concluding remarks and references; Problems; 5 Information Theory; 5.1 Entropy; 5.2 Mutual information; 5.3 Maximum entropy; 5.4 Negentropy; 5.5 Approximation of entropy by cumulants; 5.6 Approximation of entropy by nonpolynomial functions; 5.7 Concluding remarks and references; Problems; Appendix proofs; 6 Principal Component Analysis and Whitening; 6.1 Principal components; 6.2 PCA by on-line learning; 6.3 Factor analysis; 6.4 Whitening; 6.5 Orthogonalization 6.6 Concluding remarks and referencesProblems; Part II: BASIC INDEPENDENT COMPONENT ANALYSIS; 7 What is Independent Component Analysis?; 7.1 Motivation; 7.2 Definition of independent component analysis; 7.3 Illustration of ICA; 7.4 ICA is stronger that whitening; 7.5 Why gaussian variables are forbidden; 7.6 Concluding remarks and references; Problems; 8 ICA by Maximization of Nongaussianity; 8.1 ""Nongaussian is independent""; 8.2 Measuring nongaussianity by kurtosis; 8.3 Measuring nongaussianity by negentropy; 8.4 Estimating several independent components; 8.5 ICA and projection pursuit 8.6 Concluding remarks and referencesProblems; Appendix proofs; 9 ICA by Maximum Likelihood Estimation; 9.1 The likelihood of the ICA model; 9.2 Algorithms for maximum likelihood estimation; 9.3 The infomax principle; 9.4 Examples; 9.5 Concluding remarks and references; Problems; Appendix proofs; 10 ICA by Minimization of Mutual Information; 10.1 Defining ICA by mutual information; 10.2 Mutual information and nongaussianity; 10.3 Mutual information and likelihood; 10.4 Algorithms for minimization of mutual information; 10.5 Examples; 10.6 Concluding remarks and references; Problems 11 ICA by Tensorial Methods |
Record Nr. | UNINA-9910143176003321 |
Hyvärinen Aapo | ||
New York, : J. Wiley, c2001 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Inductance : loop and partial / / Clayton R. Paul |
Autore | Paul Clayton R. |
Edizione | [1st edition] |
Pubbl/distr/stampa | Hoboken, New Jersey : , : J. Wiley, , c2010 |
Descrizione fisica | 1 online resource (395 p.) |
Disciplina |
537.6
621.3742 |
Soggetto topico |
Inductance
Induction coils |
ISBN |
1-118-21128-6
1-282-68659-3 9786612686597 0-470-56123-8 0-470-56122-X |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface -- 1 Introduction -- 1.1 Historical Background -- 1.2 Fundamental Concepts of Lumped Circuits -- 1.3 Outline of the Book -- 1.4 "Loop" Inductance vs. "Partial" Inductance -- 2 Magnetic Fields of DC Currents (Steady Flow of Charge) -- 2.1 Magnetic Field Vectors and Properties of Materials -- 2.2 Gauss's Law for the Magnetic Field and the Surface Integral -- 2.3 The Biot-Savart Law -- 2.4 Ampére's Law and the Line Integral -- 2.5 Vector Magnetic Potential -- 2.5.1 Leibnitz's Rule: Differentiate Before You Integrate -- 2.6 Determining the Inductance of a Current Loop: -- A Preliminary Discussion -- 2.7 Energy Stored in the Magnetic Field -- 2.8 The Method of Images -- 2.9 Steady (DC) Currents Must Form Closed Loops -- 3 Fields of Time-Varying Currents (Accelerated Charge) -- 3.1 Faraday's Fundamental Law of Induction -- 3.2 Ampère's Law and Displacement Current -- 3.3 Waves, Wavelength, Time Delay, and Electrical Dimensions -- 3.4 How Can Results Derived Using Static (DC) Voltages and Currents be Used in Problems Where the Voltages and Currents are Varying with Time? -- 3.5 Vector Magnetic Potential for Time-Varying Currents -- 3.6 Conservation of Energy and Poynting's Theorem -- 3.7 Inductance of a Conducting Loop -- 4 The Concept of "Loop" Inductance -- 4.1 Self Inductance of a Current Loop from Faraday's Law of Induction -- 4.1.1 Rectangular Loop -- 4.1.2 Circular Loop -- 4.1.3 Coaxial Cable -- 4.2 The Concept of Flux Linkages for Multiturn Loops -- 4.2.1 Solenoid -- 4.2.2 Toroid -- 4.3 Loop Inductance Using the Vector Magnetic Potential -- 4.3.1 Rectangular Loop -- 4.3.2 Circular Loop -- 4.4 Neumann Integral for Self and Mutual Inductances Between Current Loops -- 4.4.1 Mutual Inductance Between Two Circular Loops -- 4.4.2 Self Inductance of the Rectangular Loop -- 4.4.3 Self Inductance of the Circular Loop -- 4.5 Internal Inductance vs. External Inductance -- 4.6 Use of Filamentary Currents and Current Redistribution Due to the Proximity Effect -- 4.6.1 Two-Wire Transmission Line.
4.6.2 One Wire Above a Ground Plane -- 4.7 Energy Storage Method for Computing Loop Inductance -- 4.7.1 Internal Inductance of a Wire -- 4.7.2 Two-Wire Transmission Line -- 4.7.3 Coaxial Cable -- 4.8 Loop Inductance Matrix for Coupled Current Loops -- 4.8.1 Dot Convention -- 4.8.2 Multiconductor Transmission Lines -- 4.9 Loop Inductances of Printed Circuit Board Lands -- 4.10 Summary of Methods for Computing Loop Inductance -- 4.10.1 Mutual Inductance Between Two Rectangular Loops -- 5 The Concept of "Partial" Inductance -- 5.1 General Meaning of Partial Inductance -- 5.2 Physical Meaning of Partial Inductance -- 5.3 Self Partial Inductance of Wires -- 5.4 Mutual Partial Inductance Between Parallel Wires -- 5.5 Mutual Partial Inductance Between Parallel Wires that are Offset -- 5.6 Mutual Partial Inductance Between Wires at an Angle to Each Other -- 5.7 Numerical Values of Partial Inductances and Significance of Internal Inductance -- 5.8 Constructing Lumped Equivalent Circuits with Partial Inductances -- 6 Partial Inductances of Conductors of Rectangular Cross Section -- 6.1 Formulation for the Computation of the Partial Inductances of PCB Lands -- 6.2 Self Partial Inductance of PCB Lands -- 6.3 Mutual Partial Inductance Between PCB Lands -- 6.4 Concept of Geometric Mean Distance -- 6.4.1 Geometrical Mean Distance Between a Shape and Itself and the Self Partial Inductance of a Shape -- 6.4.2 Geometrical Mean Distance and Mutual Partial Inductance Between Two Shapes -- 6.5 Computing the High-Frequency Partial Inductances of Lands and Numerical Methods -- 7 "Loop" Inductance vs. "Partial" Inductance -- 7.1 Loop Inductance vs. Partial Inductance: Intentional Inductors vs. Nonintentional Inductors -- 7.2 To Compute "Loop" Inductance, the "Return Path" for the Current Must be Determined -- 7.3 Generally, There is no Unique Return Path for all Frequencies, Thereby Complicating the Calculation of a "Loop" Inductance -- 7.4 Computing the "Ground Bounce" and "Power Rail Collapse" of a Digital Power Distribution System Using "Loop" Inductances. 7.5 Where Should the "Loop" Inductance of the Closed Current Path be Placed When Developing a Lumped-Circuit Model of a Signal or Power Delivery Path? -- 7.6 How Can a Lumped-Circuit Model of a Complicated System of a Large Number of Tightly Coupled Current Loops be Constructed Using "Loop" Inductance? -- 7.7 Modeling Vias on PCBs -- 7.8 Modeling Pins in Connectors -- 7.9 Net Self Inductance of Wires in Parallel and in Series -- 7.10 Computation of Loop Inductances for Various Loop Shapes -- 7.11 Final Example: Use of Loop and Partial Inductance to Solve a Problem -- Appendix A: Fundamental Concepts of Vectors -- A.1 Vectors and Coordinate Systems -- A.2 Line Integral -- A.3 Surface Integral -- A.4 Divergence -- A.4.1 Divergence Theorem -- A.5 Curl -- A.5.1 Stokes's Theorem -- A.6 Gradient of a Scalar Field -- A.7 Important Vector Identities -- A.8 Cylindrical Coordinate System -- A.9 Spherical Coordinate System -- Table of Identities, Derivatives, and Integrals Used in this Book -- References and Further Readings -- Index. |
Record Nr. | UNINA-9910139472603321 |
Paul Clayton R. | ||
Hoboken, New Jersey : , : J. Wiley, , c2010 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Inductance : loop and partial / / Clayton R. Paul |
Autore | Paul Clayton R. |
Edizione | [1st edition] |
Pubbl/distr/stampa | Hoboken, New Jersey : , : J. Wiley, , c2010 |
Descrizione fisica | 1 online resource (395 p.) |
Disciplina |
537.6
621.3742 |
Soggetto topico |
Inductance
Induction coils |
ISBN |
1-118-21128-6
1-282-68659-3 9786612686597 0-470-56123-8 0-470-56122-X |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface -- 1 Introduction -- 1.1 Historical Background -- 1.2 Fundamental Concepts of Lumped Circuits -- 1.3 Outline of the Book -- 1.4 "Loop" Inductance vs. "Partial" Inductance -- 2 Magnetic Fields of DC Currents (Steady Flow of Charge) -- 2.1 Magnetic Field Vectors and Properties of Materials -- 2.2 Gauss's Law for the Magnetic Field and the Surface Integral -- 2.3 The Biot-Savart Law -- 2.4 Ampére's Law and the Line Integral -- 2.5 Vector Magnetic Potential -- 2.5.1 Leibnitz's Rule: Differentiate Before You Integrate -- 2.6 Determining the Inductance of a Current Loop: -- A Preliminary Discussion -- 2.7 Energy Stored in the Magnetic Field -- 2.8 The Method of Images -- 2.9 Steady (DC) Currents Must Form Closed Loops -- 3 Fields of Time-Varying Currents (Accelerated Charge) -- 3.1 Faraday's Fundamental Law of Induction -- 3.2 Ampère's Law and Displacement Current -- 3.3 Waves, Wavelength, Time Delay, and Electrical Dimensions -- 3.4 How Can Results Derived Using Static (DC) Voltages and Currents be Used in Problems Where the Voltages and Currents are Varying with Time? -- 3.5 Vector Magnetic Potential for Time-Varying Currents -- 3.6 Conservation of Energy and Poynting's Theorem -- 3.7 Inductance of a Conducting Loop -- 4 The Concept of "Loop" Inductance -- 4.1 Self Inductance of a Current Loop from Faraday's Law of Induction -- 4.1.1 Rectangular Loop -- 4.1.2 Circular Loop -- 4.1.3 Coaxial Cable -- 4.2 The Concept of Flux Linkages for Multiturn Loops -- 4.2.1 Solenoid -- 4.2.2 Toroid -- 4.3 Loop Inductance Using the Vector Magnetic Potential -- 4.3.1 Rectangular Loop -- 4.3.2 Circular Loop -- 4.4 Neumann Integral for Self and Mutual Inductances Between Current Loops -- 4.4.1 Mutual Inductance Between Two Circular Loops -- 4.4.2 Self Inductance of the Rectangular Loop -- 4.4.3 Self Inductance of the Circular Loop -- 4.5 Internal Inductance vs. External Inductance -- 4.6 Use of Filamentary Currents and Current Redistribution Due to the Proximity Effect -- 4.6.1 Two-Wire Transmission Line.
4.6.2 One Wire Above a Ground Plane -- 4.7 Energy Storage Method for Computing Loop Inductance -- 4.7.1 Internal Inductance of a Wire -- 4.7.2 Two-Wire Transmission Line -- 4.7.3 Coaxial Cable -- 4.8 Loop Inductance Matrix for Coupled Current Loops -- 4.8.1 Dot Convention -- 4.8.2 Multiconductor Transmission Lines -- 4.9 Loop Inductances of Printed Circuit Board Lands -- 4.10 Summary of Methods for Computing Loop Inductance -- 4.10.1 Mutual Inductance Between Two Rectangular Loops -- 5 The Concept of "Partial" Inductance -- 5.1 General Meaning of Partial Inductance -- 5.2 Physical Meaning of Partial Inductance -- 5.3 Self Partial Inductance of Wires -- 5.4 Mutual Partial Inductance Between Parallel Wires -- 5.5 Mutual Partial Inductance Between Parallel Wires that are Offset -- 5.6 Mutual Partial Inductance Between Wires at an Angle to Each Other -- 5.7 Numerical Values of Partial Inductances and Significance of Internal Inductance -- 5.8 Constructing Lumped Equivalent Circuits with Partial Inductances -- 6 Partial Inductances of Conductors of Rectangular Cross Section -- 6.1 Formulation for the Computation of the Partial Inductances of PCB Lands -- 6.2 Self Partial Inductance of PCB Lands -- 6.3 Mutual Partial Inductance Between PCB Lands -- 6.4 Concept of Geometric Mean Distance -- 6.4.1 Geometrical Mean Distance Between a Shape and Itself and the Self Partial Inductance of a Shape -- 6.4.2 Geometrical Mean Distance and Mutual Partial Inductance Between Two Shapes -- 6.5 Computing the High-Frequency Partial Inductances of Lands and Numerical Methods -- 7 "Loop" Inductance vs. "Partial" Inductance -- 7.1 Loop Inductance vs. Partial Inductance: Intentional Inductors vs. Nonintentional Inductors -- 7.2 To Compute "Loop" Inductance, the "Return Path" for the Current Must be Determined -- 7.3 Generally, There is no Unique Return Path for all Frequencies, Thereby Complicating the Calculation of a "Loop" Inductance -- 7.4 Computing the "Ground Bounce" and "Power Rail Collapse" of a Digital Power Distribution System Using "Loop" Inductances. 7.5 Where Should the "Loop" Inductance of the Closed Current Path be Placed When Developing a Lumped-Circuit Model of a Signal or Power Delivery Path? -- 7.6 How Can a Lumped-Circuit Model of a Complicated System of a Large Number of Tightly Coupled Current Loops be Constructed Using "Loop" Inductance? -- 7.7 Modeling Vias on PCBs -- 7.8 Modeling Pins in Connectors -- 7.9 Net Self Inductance of Wires in Parallel and in Series -- 7.10 Computation of Loop Inductances for Various Loop Shapes -- 7.11 Final Example: Use of Loop and Partial Inductance to Solve a Problem -- Appendix A: Fundamental Concepts of Vectors -- A.1 Vectors and Coordinate Systems -- A.2 Line Integral -- A.3 Surface Integral -- A.4 Divergence -- A.4.1 Divergence Theorem -- A.5 Curl -- A.5.1 Stokes's Theorem -- A.6 Gradient of a Scalar Field -- A.7 Important Vector Identities -- A.8 Cylindrical Coordinate System -- A.9 Spherical Coordinate System -- Table of Identities, Derivatives, and Integrals Used in this Book -- References and Further Readings -- Index. |
Record Nr. | UNINA-9910830602103321 |
Paul Clayton R. | ||
Hoboken, New Jersey : , : J. Wiley, , c2010 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Industrial chemicals. / W.L. Faith, Donald B. Keyes, Ronald L. Clark |
Autore | Faith, W.l. |
Pubbl/distr/stampa | New York : J. Wiley, 1952 |
Descrizione fisica | XI,652 p., ill., 24 cm |
Disciplina | 660 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | ita |
Record Nr. | UNINA-990000303000403321 |
Faith, W.l. | ||
New York : J. Wiley, 1952 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Industryal Chemistry / By William Thornton Read |
Autore | Read, William Thornton |
Edizione | [3° ed.] |
Pubbl/distr/stampa | New York : J. Wiley, 1946 |
Descrizione fisica | V,631 p., ill., 22 cm |
Disciplina | 660 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | ita |
Record Nr. | UNINA-990000302880403321 |
Read, William Thornton | ||
New York : J. Wiley, 1946 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Inflammatory bowel disease [[electronic resource] ] : crossroads of microbes, epithelium and immune systems |
Pubbl/distr/stampa | Chichester, UK ; ; Hoboken, NJ, : J. Wiley, 2004 |
Descrizione fisica | 1 online resource (240 p.) |
Disciplina | 616.344 |
Altri autori (Persone) |
ChadwickDerek
GoodeJamie |
Collana | Novartis Foundation symposium |
Soggetto topico |
Inflammatory bowel diseases
Gastroenteritis |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-26899-9
9786610268993 0-470-09048-0 0-470-09047-2 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
INFLAMMATORY BOWEL DISEASE: CROSSROADS OF MICROBES, EPITHELIUM AND IMMUNE SYSTEMS; Contents; Participants; Chair's introduction; Progress towards identifying inflammatory bowel disease susceptibility genes; Discussion; Phenotype-determining genes in inflammatory bowel disease; Discussion; Pharmacogenetics of inflammatory bowel disease; Discussion; Bacterial milieu and mucosal bacteria in ulcerative colitis; Discussion; Defensins and mucosal protection; Discussion; Intestinal mycoplasma in Crohn's disease; Discussion; Probiotics, prebiotics and antibiotics in inflammatory bowel disease
DiscussionThe epithelium in inflammatory bowel disease: potential role of endocytosis of junctional proteins in barrier disruption; Discussion; Apoptosis or necrosis colonic epithelial cell survival; Discussion; Genetic aspects of intestinal permeability in inflammatory bowel disease; Discussion; Animal models of intestinal inflammation: clues to the pathogenesis of inflammatory bowel disease; Discussion; Homing of intestinal immune cells; Discussion; Anti-TNF therapy in Crohn's disease; Discussion; Final discussion; Index of contributors; Subject index |
Record Nr. | UNINA-9910143695203321 |
Chichester, UK ; ; Hoboken, NJ, : J. Wiley, 2004 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|