1. Introduction to MIMO Systems Evolution of MIMO systems MIMO system and channel models Open loop MIMO systems Closed loop MIMO systems 2. Generalized Fading Channels Introduction Introduction to fading channels Commonly used fading distributions Generalized fading distributions Generation of channel coefficients 3. Spatial Multiplexing Introduction Diversity multiplexing trade-off and the capacity of MIMO systems Spatial multiplexing Nakagami-m fading channel model for spatially multiplexed systems Spatial multiplexing over η − µ fading channels Spatial multiplexing over κ − µ fading channels Spatial multiplexing over α − µ fading channels Acknowledgements 4. Spatial Modulation Introduction SM transmission reception schemes Performance analysis of SM MIMO systems Performance of SM systems over Nakagami-m fading channels Error performance of SM systems over κ − µ fading channels Error performance of SM systems over η − µ fading channels Error performance of SM systems over α − µ fading channels Generalized spatial modulation 5. Transmit Antenna Selection Introduction Antenna selection criteria TAS system model TAS over Nakagami-m fading channels TAS over κ − µ fading channels TAS over η − µ fading channels TAS over α − µ fading channels 6. Space Time Block Coded MIMO Systems Introduction STBC design criteria Generator matrix for STBC design STBC detection STBC systems over Nakagami-m fading channels STBC systems over κ − µ fading channels STBC systems over η − µ fading channels STBC systems over α − µ fading channels 7. MIMO for 5G Mobile Communications Multiuser MIMO Massive MIMO mmWave massive MIMO Acknowledgements Device-to-device communication for internet of things Large scale MIMO systems A.

Appendix Parameters for various modulation schemes Approximation of Gaussian Q function Detailed solution for (5.95) CDF of Nakagami-m distributed SNR MGF of Nakagami-m distributed SNR CDF of κ − µ distributed SNR MGF of κ − µ distributed SNR CDF of η − µ distributed SNR MGF of η − µ distributed SNR CDF of α − µ distributed SNR B MATLAB codes for generating results MATLAB scripts for plotting PDF of envelope and SNR of generalized fading channels and verification by generating channel coefficients MATLAB functions for generating channel coefficients of generalized fading channels MATLAB functions for evaluating MGF of received SNR after MRC MATLAB script for SER of spatially multiplexed MIMO system MATLAB script for SER of SM MIMO system MATLAB script for SER of 2 × 2 Alamouti STBC MIMO sys-tem MATLAB script for SER of TAS MIMO system with MRC atthe receiver Bibliography Index κ − µ fading channels Spatial multiplexing over α − µ fading channels Acknowledgements 4. Spatial Modulation Introduction SM transmission reception schemes Performance analysis of SM MIMO systems Performance of SM systems over Nakagami-m fading channels Error performance of SM systems over κ − µ fading channels Error performance of SM systems over η − µ fading channels Error performance of SM systems over α − µ fading channels Generalized spatial modulation 5. Transmit Antenna Selection Introduction Antenna selection criteria TAS system model TAS over Nakagami-m fading channels TAS over κ − µ fading channels TAS over η − µ fading channels TAS over α − µ fading channels 6. Space Time Block Coded MIMO Systems Introduction STBC design criteria Generator matrix for STBC design STBC detection STBC systems over Nakagami-m fading channels STBC systems over κ − µ fading channels STBC systems over η − µ fading channels STBC systems over α − µ fading channels 7. MIMO for 5G Mobile Communications Multiuser MIMO Massive MIMO mmWave massive MIMO Acknowledgements Device-to-device communication for internet of things Large scale MIMO systems A. Appendix Parameters for various modulation schemes Approximation of Gaussian Q function Detailed solution for (5.95) CDF of Nakagami-m distributed SNR MGF of Nakagami-m distributed SNR CDF of κ − µ distributed SNR MGF of κ − µ distributed SNR CDF of η − µ distributed SNR MGF of η − µ distributed SNR CDF of α − µ distributed SNR B MATLAB codes for generating results MATLAB scripts for plotting PDF of envelope and SNR of generalized fading channels and verification by generating channel coefficients MATLAB functions for generating channel coefficients of generalized fading channels MATLAB functions for evaluating MGF of received SNR after MRC MATLAB script for SER of spatially multiplexed MIMO system MATLAB script for SER of SM MIMO system MATLAB script for SER of 2 × 2 Alamouti STBC MIMO sys-tem MATLAB script for SER of TAS MIMO system with MRC atthe receiver Bibliography Index Nakagami-m fading channels TAS over κ − µ fading channels TAS over η − µ fading channels TAS over α − µ fading channels 6.

Space Time Block Coded MIMO Systems Introduction STBC design criteria Generator matrix for STBC design STBC detection STBC systems over Nakagami-m fading channels STBC systems over κ − µ fading channels STBC systems over η − µ fading channels STBC systems over α − µ fading channels 7. MIMO for 5G Mobile Communications Multiuser MIMO Massive MIMO mmWave massive MIMO Acknowledgements Device-to-device communication for internet of things Large scale MIMO systems A. Appendix Parameters for various modulation schemes Approximation of Gaussian Q function Detailed solution for (5.95) CDF of Nakagami-m distributed SNR MGF of Nakagami-m distributed SNR CDF of κ − µ distributed SNR MGF of κ − µ distributed SNR CDF of η − µ distributed SNR MGF of η − µ distributed SNR CDF of α − µ distributed SNR B MATLAB codes for generating results MATLAB scripts for plotting PDF of envelope and SNR of generalized fading channels and verification by generating channel coefficients MATLAB functions for generating channel coefficients of generalized fading channels MATLAB functions for evaluating MGF of received SNR after MRC MATLAB script for SER of spatially multiplexed MIMO system MATLAB script for SER of SM MIMO system MATLAB script for SER of 2 × 2 Alamouti STBC MIMO sys-tem MATLAB script for SER of TAS MIMO system with MRC atthe receiver Bibliography Index Device-to-device communication for internet of things Large scale MIMO systems A. Appendix Parameters for various modulation schemes Approximation of Gaussian Q function Detailed solution for (5.95) CDF of Nakagami-m distributed SNR MGF of Nakagami-m distributed SNR CDF of κ − µ distributed SNR MGF of κ − µ distributed SNR CDF of η − µ distributed SNR MGF of η − µ distributed SNR CDF of α − µ distributed SNR B MATLAB codes for generating results MATLAB scripts for plotting PDF of envelope and SNR of generalized fading channels and verification by generating channel coefficients MATLAB functions for generating channel coefficients of generalized fading channels MATLAB functions for evaluating MGF of received SNR after MRC MATLAB script for SER of spatially multiplexed MIMO system MATLAB script for SER of SM MIMO system MATLAB script for SER of 2 × 2 Alamouti STBC MIMO sys-tem MATLAB script for SER of TAS MIMO system with MRC atthe receiver Bibliography Index mp;lt;/P> MATLAB functions for generating channel coefficients of generalized fading channels MATLAB functions for evaluating MGF of received SNR after MRC MATLAB script for SER of spatially multiplexed MIMO system MATLAB script for SER of SM MIMO system MATLAB script for SER of 2 × 2 Alamouti STBC MIMO sys-tem MATLAB script for SER of TAS MIMO system with MRC atthe receiver Bibliography Index.