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Biosignal and medical image processing / John L. Semmlow, Benjamin Griffel

SEMMLOW, John L.

Boca Raton [etc.] : CRC Press : 2014

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Lo trovi qui: Univ. di Salerno

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Circuits, signals, and systems for bioengineers [[electronic resource] ] : a MATLAB-based introduction / / John Semmlow

Semmlow John L

Oxford, : Academic, 2005

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Lo trovi qui: Univ. Federico II

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Circuits, signals, and systems for bioengineers [[electronic resource] ] : a MATLAB-based introduction / / John Semmlow

Semmlow John L

Oxford, : Academic, 2005

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Circuits, signals, and systems for bioengineers [[electronic resource] ] : a MATLAB-based introduction / / John Semmlow

Semmlow John L

Oxford, : Academic, 2005

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Circuits, systems, and signals for bioengineers : a MATLAB-based introduction / John L. Semmlow

Semmlow, John L.

Amsterdam [etc.], : Elsevier Academic press, c2005

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Electronic books. (1)

Autore	SEMMLOW, John L.
Pubbl/distr/stampa	Boca Raton [etc.] : CRC Press : 2014
Descrizione fisica	XXI, 608 p. ; 26 cm
Disciplina	610.285
Altri autori (Persone)	GRIFFEL, Benjamin
Soggetto topico	Diagnosi per immagini
ISBN	978-1-4665-6736-8
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Record Nr.	UNISA-996241849203316

Autore	Semmlow John L
Pubbl/distr/stampa	Oxford, : Academic, 2005
Descrizione fisica	1 online resource (461 p.)
Disciplina	621.38102461
Collana	Biomedical Engineering
Soggetto topico	Biomedical engineering Electronics
Soggetto genere / forma	Electronic books.
ISBN	1423708202 1-281-00808-7 9781423708202 9786611008086 1-4237-0820-2 0-08-047652-X
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	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 Signal3.2 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 Law5.2 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 Sources7.4 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 AMPLIFIERS10.1 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
Record Nr.	UNINA-9910450453303321

Autore	Semmlow John L
Pubbl/distr/stampa	Oxford, : Academic, 2005
Descrizione fisica	1 online resource (461 p.)
Disciplina	621.38102461
Collana	Biomedical Engineering
Soggetto topico	Biomedical engineering Electronics
ISBN	1423708202 1-281-00808-7 9781423708202 9786611008086 1-4237-0820-2 0-08-047652-X
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	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 Signal3.2 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 Law5.2 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 Sources7.4 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 AMPLIFIERS10.1 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
Record Nr.	UNINA-9910783441303321

Autore	Semmlow John L
Edizione	[1st ed.]
Pubbl/distr/stampa	Oxford, : Academic, 2005
Descrizione fisica	1 online resource (461 p.)
Disciplina	621.38102461
Collana	Biomedical Engineering
Soggetto topico	Biomedical engineering Electronics
ISBN	1423708202 1-281-00808-7 9781423708202 9786611008086 1-4237-0820-2 0-08-047652-X
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Nota di contenuto	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 Signal3.2 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 Law5.2 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 Sources7.4 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 AMPLIFIERS10.1 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
Record Nr.	UNINA-9910828704103321

Autore	Semmlow, John L.
Pubbl/distr/stampa	Amsterdam [etc.], : Elsevier Academic press, c2005
Descrizione fisica	XIV, 446 p. : ill. ; 25 cm + 1 CD-ROM.
Disciplina	610.28
Collana	Academic Press series in biomedical engineering
Soggetto topico	Ingegneria biomedica
ISBN	0120884933
Formato	Materiale a stampa
Livello bibliografico	Monografia
Lingua di pubblicazione	eng
Altri titoli varianti	Circuits, signals, and systems for bioengineers
Record Nr.	UNISANNIO-UBO2903012