Introduction, Fourier Series, Fourier Transforms, Laplace Transforms and Applications, Network functions and Theorems, Discrete Time Systems and State-Variable Methods.
Linear Neural networks, Non linear system analysis, Adaptive learning rate, Fuzzy Logic Control, Neural Model of a Robot manipulator, Adaptive neural control, Linear controlle
Electric Drive, Controlled Rectifier, Power Electronics Improvements, Dc to Dc Converter, Ac to Dc Converter-Design, Dc Motor Speed Control, Inverter - Current Hysteresis Cont
Contents:
Introduction - Architecture of Industrial Automation Systems - Measurement Systems Characteristics - Temperature Measurement - Pressure, Force and Torque Sensors -
Contents:
Introduction - Probability Theory -Random Variables - Function of Random Variable Joint Density - Mean and Variance - Random Vectors Random Processes - Random Proc
Fundamentals Of Energy, Fossil Fuels, Energy Economics, Thermal Power Plants, Hydroelectric Power, Nuclear Fusion Reactors, Solar Thermal Energy Conversion, Photovoltaic Power
Introduction, Embedded Hardware, PIC: Instruction Set, ARM Processor, Digital Signal Processors, System On Chip (SOC), Memory Organization, Virtual Memory and Memory Managemen
Introduction to Vector - Coulomb's Law - Electric Field - Electro Static Potential - The Gradient - Gauss's Law - Poisson's Equation - Energy in the Field - Example Problems i
Contents:
Discrete Time Signal and System - Frequency Domain Representation of Discrete Signals - Z-Transform - Solution of Difference Equation - Relation Between Discrete Ti
Introduction to control problem
Industrial Control examples. Transfer function models of mechanical, electrical, thermal and hydraulic systems. System with dead-time. System
Signals and Systems, Initial and Final Conditions, Step, Impulse and Complete Responses, Transformer Transform Domain Analysis, Network Theorems and Functions, Poles, Zeros an
Passive Components, Sources, Krichoffs Law, Modeling of Circuit, Analysis Using MatLab, Transfer Function and Pole Zero domain, Phasor Analysis, The Practical Transformer, Pha
Introduction to the Spectroscopic Effective Hamiltonian - Spectroscopic Pertubations, Predissociation, and Autoionization - Semiclassical Methods for Calculating Vibrational O
Contents:
Atomic Theory of Matter - Discovery of Nucleus - Wave-Particle Duality of Radiation and Matter - Particle-Like Nature of Light - Matter as a Wave - Schrodinger Equa