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Adam Panagos / Engineer / Lecturer
Course Description
This is an undergraduate course that teaches methods for analyzing continuous-time signals and systems. Important topics include basic signal models, signal classification, solving differential equations, system impulse response and frequency response, the Fourier Series, Fourier Transform, and Laplace Transform.
The textbook used for the course is, "Signal Processing and Linear Systems" by B. P. Lathi.
The list below is a full outline of the course, but only portions of the lectures have been recorded so far. I try to add a few more each time I teach the course.
Blue text indicates Members Only portions of the website.
Video Lectures
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Course Introduction
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Course Overview
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Complex Number and Function Review (5 videos, ~42 min)
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Signals and System Basics
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Signal Classification Part 1 (10 videos, ~55 minutes)
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Signal Classification Part 2 (8 videos, ~34 minutes)
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Signal Operations (9 videos, ~56 minutes)
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Signal Models (10 videos, ~64 minutes)
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Systems Introduction
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System Classification (1 video, ~10 minutes)
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Time-Domain Analysis of Signals and Systems
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Introduction
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Linear Differential Systems
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Convolution
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Impulse Response and Total Response (10 videos, ~53 minutes)
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System Stability (2 videos, ~18 minutes)
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The Fourier Series
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Signals and Vectors
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Orthogonal Signal Sets
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Trigonometric FS (5 videos, ~43 minutes)
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Exponential FS (2 videos, ~16 minutes)
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System Response (2 videos, ~18 minutes)
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The Fourier Transform
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The Laplace Transform
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Filters
File Downloads
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