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Lecture
DTFT and Stable LTI Systems
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Related lectures (32)
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Fourier Series and Transforms: Introduction and Properties
Covers Fourier series, Fourier transforms, and convolution properties, including linearity and commutativity.
Frequency Response Analysis: Linear Systems and Filters
Covers the frequency response of linear systems and filter design principles.
Discrete-Time Fourier Transform: Properties
Explores the properties of Discrete-Time Fourier Transform, including linearity, time and frequency shifts, time reversal, and convolution.
Discrete Signals and Linear Systems
Explores discrete signals, linear systems, categorization examples, and convolution properties in signal processing.
Signals & Systems I: Filter Equations and Poles
Explores rational transfer functions, filter equations, poles, zeros, and impulse response in signal processing.
Signals & Systems II: Difference Equations and Inverse Operators
Explores difference equations, impulse response, BIBO stability, and inverse operators in signal processing.
Geometric Response in LTI Systems
Explains geometric response in LTI systems and its relationship with impulse response.
Complex Fourier Space Analysis
Covers the analysis of instability in complex Fourier space and its application to mixing layers.
Frequency Response and Filters: Signals & Systems I
Explores frequency response, ideal filters, and linear phase in signals & systems.
Discrete Systems Analysis: Z-Transform and System Properties
Explores Z-transform, system properties, and analysis of discrete systems, focusing on stability and transfer functions.
