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Nonlinear Distortion in Wireless Systems : Modeling and Simulation with Matlab.

This book covers the principles of modeling and simulation of nonlinear distortion in wireless communication systems with MATLAB® simulations and techniques In this book, the author describes the principles of modeling and simulation of nonlinear distortion in single and multichannel wireless commun...

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Detalles Bibliográficos
Clasificación:	Libro Electrónico
Autor principal:	Gharaibeh, Khaled M.
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	Hoboken : John Wiley & Sons, 2011.
Edición:	2nd ed.
Temas:	MATLAB. MATLAB Nonlinear theories. Wireless communication systems > Computer simulation. Electric distortion > Computer simulation. Nonlinear systems > Computer simulation. Signal processing > Computer simulation. Théories non linéaires. Transmission sans fil > Simulation par ordinateur. Distorsion (Électricité) > Simulation par ordinateur. Systèmes non linéaires > Simulation par ordinateur. Traitement du signal > Simulation par ordinateur. Nonlinear theories Signal processing > Computer simulation
Acceso en línea:	Texto completo

Tabla de Contenidos:

NONLINEAR DISTORTION IN WIRELESS SYSTEMS; Contents; Preface; List of Abbreviations; List of Figures; List of Tables; Acknowledgements; 1 Introduction; 1.1 Nonlinearity in Wireless Communication Systems; 1.1.1 Power Amplifiers; 1.1.2 Low-Noise Amplifiers (LNAs); 1.1.3 Mixers; 1.2 Nonlinear Distortion in Wireless Systems; 1.2.1 Adjacent-Channel Interference; 1.2.2 Modulation Quality and Degradation of System Performance; 1.2.3 Receiver Desensitization and Cross-Modulation; 1.3 Modeling and Simulation of Nonlinear Systems; 1.3.1 Modeling and Simulation in Engineering.
1.3.2 Modeling and Simulation for Communication System Design1.3.3 Behavioral Modeling of Nonlinear Systems; 1.3.4 Simulation of Nonlinear Circuits; 1.4 Organization of the Book; 1.5 Summary; 2 Wireless Communication Systems, Standards and Signal Models; 2.1 Wireless System Architecture; 2.1.1 RF Transmitter Architectures; 2.1.2 Receiver Architecture; 2.2 Digital Signal Processing in Wireless Systems; 2.2.1 Digital Modulation; 2.2.2 Pulse Shaping; 2.2.3 Orthogonal Frequency Division Multiplexing (OFDM); 2.2.4 Spread Spectrum Modulation; 2.3 Mobile System Standards.
2.3.1 Second-Generation Mobile Systems2.3.2 Third-Generation Mobile Systems; 2.3.3 Fourth-Generation Mobile Systems; 2.3.4 Summary; 2.4 Wireless Network Standards; 2.4.1 First-Generation Wireless LANs; 2.4.2 Second-Generation Wireless LANs; 2.4.3 Third-Generation Wireless Networks (WMANs); 2.5 Nonlinear Distortion in Different Wireless Standards; 2.6 Summary; 3 Modeling of Nonlinear Systems; 3.1 Analytical Nonlinear Models; 3.1.1 General Volterra Series Model; 3.1.2 Wiener Model; 3.1.3 Single-Frequency Volterra Models; 3.1.4 The Parallel Cascade Model; 3.1.5 Wiener-Hammerstein Models.
3.1.6 Multi-Input Single-Output (MISO) Volterra Model3.1.7 The Polyspectral Model; 3.1.8 Generalized Power Series; 3.1.9 Memory Polynomials; 3.1.10 Memoryless Models; 3.1.11 Power-Series Model; 3.1.12 The Limiter Family of Models; 3.2 Empirical Nonlinear Models; 3.2.1 The Three-Box Model; 3.2.2 The Abuelma'ati Model; 3.2.3 Saleh Model; 3.2.4 Rapp Model; 3.3 Parameter Extraction of Nonlinear Models from Measured Data; 3.3.1 Polynomial Models; 3.3.2 Three-Box Model; 3.3.3 Volterra Series; 3.4 Summary; 4 Nonlinear Transformation of Deterministic Signals.
4.1 Complex Baseband Analysis and Simulations4.1.1 Complex Envelope of Modulated Signals; 4.1.2 Baseband Equivalent of Linear System Impulse Response; 4.2 Complex Baseband Analysis of Memoryless Nonlinear Systems; 4.2.1 Power-Series Model; 4.2.2 Limiter Model; 4.3 Complex Baseband Analysis of Nonlinear Systems with Memory; 4.3.1 Volterra Series; 4.3.2 Single-Frequency Volterra Models; 4.3.3 Wiener-Hammerstein Model; 4.4 Complex Envelope Analysis with Multiple Bandpass Signals; 4.4.1 Volterra Series; 4.4.2 Single-Frequency Volterra Models; 4.4.3 Wiener-Hammerstein Model.

Nonlinear Distortion in Wireless Systems : Modeling and Simulation with Matlab.

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