1.1 Classification of Signals and Systems.mp4+ 1.2 Determination of System Linearity and Time-Invariance.mp4+ 2.1The Time-Domain Description of Basic Continuous-Time Signals.mp4+ 2.2The basic operations on continuous-time signals.mp4+ 2.3Time-Domain Description of Basic Discrete-Time Signals.mp4+ 2.4Basic Operations on Discrete Signals.mp4+ 2.5Signal Decomposition.mp4+ 3.1Solving for the Response of a Continuous LTI System Using Differential Equations.mp4+ 3.2Convolution Integral of Continuous-Time LTI Systems.mp4+ 3.3 Solving the Response of a Discrete-Time LTI System Using Difference Equations.mp4+ 3.4 Convolution Sum of Discrete-Time LTI Systems.mp4+ 3.5 Unit Impulse (Pulse) Response Representation of System Characteristics.mp4+ 4.1 Fourier Series of Continuous Periodic Signals.mp4+ 4.2 Properties of Fourier Series of Continuous Periodic Signals.mp4+ 4.3 Fourier Transform of Continuous Signals.mp4+ 4.4 Properties of the Fourier Transform of Continuous-Time Signals.mp4+ 4.5 Frequency-Domain Analysis of Discrete Signals.mp4+ 5.1 Frequency Response of Continuous‑Time Systems.mp4+ 5.2 Frequency Response of Discrete‑Time Systems.mp4+ 5.3 Distortionless Transmission Systems.mp4+ 5.4 Ideal Filters.mp4+ 5.5 Time‑Domain Sampling Theorem.mp4+ 6.1 Laplace Transform of Continuous-Time Signals.mp4+ 6.2 Properties of the Laplace Transform.mp4+ 6.3 The Inverse Laplace Transform.mp4+ 6.4 Z-Transform of Discrete-Time Signals and Its Properties.mp4+ 6.5 Z-Transform Inversion.mp4+ 7.1 The Zero-State Response of a System under Complex Exponential Signal Excitation.mp4+ 7.2 Solving Continuous-Time LTI System Differential Equations in the Complex Frequency Domain.mp4+ 7.3 System Function and Characteristics of Continuous-Time LTI Systems.mp4+ 7.4 Complex Frequency‑Domain (Z‑Domain) Solutions of Difference Equations for Discrete‑Time LTI System.mp4+ 7.5 System Function and System Characteristics of Discrete‑Time LTI Systems.mp4+ Course Introduction.mp4+