Matlab – A Fundamental Tool For Scientific Computing And Engineering Applications (Volume One) – Vasilios N. Katsikis

Preface IX
Chapter 1 – PID Control Design
Chapter 2 – Post Processing of Results of EM Field Simulators
Chapter 3 – Simulation of Power Converters Using Matlab-Simulink
Chapter 4 – Performances of the PCA Method in Electrical Machines Diagnosis Using Matlab
Chapter 5 – Dynamic and Quasi-Static Simulation of a Novel Compliant MEMS Force Amplifier by Matlab/Simulink
Chapter 6 – Voltage Sag Waveform Using SagWave GUI
Chapter 7 – Modelling and Characterization of Power Electronics Converters Using Matlab Tools
Chapter 8 – Improved DTC Algorithms for Reducing Torque and Flux Ripples of PMSM Based on Fuzzy Logic and PWM Techniques
Chapter 9 – Position Estimation of the PMSM High Dynamic Drive at Low Speed Range
Chapter 10 – Digital Differential Protection of Power Transformer Using Matlab
Chapter 11 – PH Control Using MATLAB
Chapter 12 An Advanced Transmission Line and Cable Model in Matlab for the Simulation of Power-System Transients
Chapter 13 – A New Modeling of the Non-Linear Inductances in MATLAB
Chapter 14 – Dynamic Simulation of Electrical Machines and Drive Systems Using MATLAB GUI
Chapter 15 – Image Reconstruction Methods for MATLAB Users – A Moore-Penrose Inverse Approach
Chapter 16 – Artificial Human Arm Driven by EMG Signal
Chapter 17 – Analysis and Modeling of Clock-Jitter Effects in Delta-Sigma Modulators
Chapter 18 – Matlab-Based Algorithm for Real Time Analysis of Multiexponential Transient Signals
Chapter 19 – Digital FIR Hilbert Transformers: Fundamentals and Efficient Design Methods
Chapter 20 – Detection of Craters and Its Orientation on Lunar