"MATLAB: A Fundamental Tool for Scientific Computing and Engineering Applications, Volume 1" ed. by Vasilios N. Katsikis
InTeOp | 2012 | ISBN: 953510750X 9789535107507 | 533 pages | PDF | 25 MB

This is the first book in a three-volume series deploying MATLAB-based applications in almost every branch of science. This volume, presents interesting topics from different areas of engineering, signal and image processing based on the MATLAB environment.

This collection of high quality articles, refers to a large range of professional fields and may be used for scientific, engineering and educational purposes.

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




"MATLAB: A Fundamental Tool for Scientific Computing and Engineering Applications, Volume 2" ed. by Vasilios N. Katsikis
InTeOp | 2012 | ISBN: 9535107518 9789535107514 | 322 pages | PDF | 12 MB

This excellent book represents the second part of three-volumes regarding MATLAB-based applications in almost every branch of science.

The present textbook contains a collection of articles divided in three parts.
The first part is devoted to electronic engineering and computer science,
the second part is devoted to MATLAB/SIMULINK as a tool for engineering applications and
the third part is about telecommunication and communication systems.
This collection of high quality articles refers to a large range of professional fields and can be used for science as well as for various educational purposes.

Contents
Preface
Section 1. Electronic Engineering and Computer Science
1 MATLAB COM Integration for Engineering Applications
2 Mobile Radio Propagation Prediction for Two Different Districts in Mosul-City
3 Two Novel Implementations of the Remez Multiple Exchange Algorithm for Optimum FIR Filter Design
Section 2. MATLAB/SIMULINK and Its Engineering Applications
4 A Virtual Laboratory: Teaching and Research Tool in Control Engineering Education
5 On Finite-Dimensional Transformations of An isochronic Controllers Designed by Algebraic Means: A User Interface
6 Matlab/SystemC for the New Co-Simulation Environment by PEG Algorithm
7 Matlab Simulink as Simulation Tool for Wind Generation Systems Based on Doubly Fed Induction Machines
8 Matlab-SimulinkO Coupling to Finite Element Software for Design and Analysis of Electrical Machines
Section 3. Telecommunication-Communication Systems
9 MATLAB as a Design and Verification Tool for the Hardware Prototyping ofWireless Communication Systems
10 DVB-S2 Model in Matlab: Issues and Impairments
11 Wireless Channel Model with Markov Chains Using MATLAB
12 Simulation Framework ofWireless Sensor Network (WSN) Using MATLAB/SIMULINK Software
13 Semi-Ana lytic Techniques for Fast MATLAB Simulations




"MATLAB: A Fundamental Tool for Scientific Computing and Engineering Applications, Volume 3" ed. by Vasilios N. Katsikis
InTeOp | 2012 | ISBN: 9535107526 9789535107521 | 498 pages | PDF | 18 MB

This excellent book represents the final part of three-volumes regarding MATLAB-based applications in almost every branch of science.

The book consists of three parts,
the first one is devoted to mathematical methods in the applied sciences by using MATLAB,
the second is devoted to MATLAB applications of general interest and
the third one discusses MATLAB for educational purposes.
This collection of high quality articles, refers to a large range of professional fields and can be used for science as well as for various educational purposes.

Contents
Preface
Section 1. Mathematical Methods in the Applied Sciences
1 Simulation of Piecewise Hybrid Dynamical Systems in Matlab
2 Robust Control of Distributed Parameter Systems with Demonstration in Casting Technology and MATLAB/5imulink/DPS Blockset Software Support
3 Fouling in Heat Exchangers
4 Optimal Solution to Matrix Riccati Equation - For Kalman Filter Implementation
5 Numerical Simulation of the Frank-Kamenetskii PDE: GPU vs. CPU Computing
6 Fuzzv Analytical Network Process Implementation with Matlab
7 Fractal Dimension Estimation Methods for Biomedical Images
3 MATLAB Aided Option Replication
9 Convolution Kernel for Fast CPU/GPU Computation of 2D/3D Isotropic Gradients on a Square/Cubic Lattice
Section 2. MATLAB General Applications
10 MATLAB/Simulink-Based Grid Power Inverter for Renewable Energy Sources Integration
11 Model-Based Simulation of an Intelligent Microprocessor-Based Standalone Solar Tracking System
12 Micro-Robot Management
13 Micro-Robot Management
Section 3. MATLAB for Educational Purposes
14 Education of Future Advanced Matlab Users
15 Using MATLAB in the Teaching and Learning of Semiconductor Device Fundamentals
16 An Interactive Tool for Servo Systems Learning
17 Illustrating Amazing Effects of Modern Physics with Numerical Simulations Conducted in the Classroom
18 The MatLabTM Software Application for Electrical Engineering Simulations and Power System
19 Using a Low Complexity Numeric Routine for Solving Electromagnetic Transient Simulations