Lectures related to Inverse Laplace Transform

Introduces Partial Fraction Expansion as a valuable tool for analyzing stable LTI systems.

Laplace Transform Application: LTI Systems

Covers the application of Laplace transform to LTI Systems, including examples and differential equations.

Power Systems Dynamics: Transient Stability

Explores transient stability in power systems dynamics, covering algebraic equations, generator models, and numerical integration techniques.

Electric Motors: Principles and Applications

Explores electric motor principles, linearity, control systems, active suspensions, and Laplace transforms.

Fourier Transform: LTI Systems

Explores the Fourier transform application to LTI systems, including frequency response, convolution, differentiation, and solving differential equations.

Difference Equations: Roots and Solutions

Explores characteristic polynomials, stability conditions, homogeneous solutions, and transfer functions in difference equations.

Differential Equations and System Composition

Covers Laplace transform for LTI systems and system composition.

State-space Modeling

Introduces the state-space approach to modeling dynamical systems and its utility for high-speed solution of differential equations and computer algorithms.

Power Systems Dynamics: Stability and Behavior

Explores transient stability in power systems, covering synchronous machine synchronism after disturbances, voltage stability, and power flow calculations.

Laplace Transform: Properties and Examples

Covers the Laplace Transform, including its properties and examples.

Convolution and Laplace Transform

Explores control of dynamic systems, impulse response, Laplace transform, and Fourier transform for solving differential equations.

Laplace Transform and LTI Systems

Covers Laplace Transform, Fourier Transforms, transfer functions, LTI systems, and Region of Convergence properties.

Introduction to MATLAB Tools and Installation

Covers the introduction to MATLAB tools and provides installation instructions for Thermodynamics-based Flux Analysis, including pre-requirements like GIT and CPLEX.

Dynamical Systems: Laplace Transform

Covers the Laplace transform, transfer functions, and properties of common functions in dynamical systems.

Notion of Transfer Function

Introduces the concept of transfer function in dynamic systems analysis.

Laplace Transform: Complex Roots and Transfer Functions

Covers complex roots, transfer functions for nonlinear systems, and Laplace transforms in forced responses.

Modeling Dynamic Systems: Definitions and Examples

Covers the modeling of dynamic systems, including definitions, examples, and linearization processes for easier analysis.

Inverse Laplace Transform and Cauchy Problem

Introduces the inverse Laplace transform and the Cauchy problem for ordinary differential equations, emphasizing the importance of verifying the obtained results.

Differential Equations: Speed Variation Analysis

Covers the analysis of speed variation using differential equations and small time intervals.

Sensors: Measurement and Dynamic Characteristics

Explores sensors, dynamic characteristics, frequency response, and system behavior in robotics.