YoVDO

Networks, Signals and Systems

Offered By: NPTEL via YouTube

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Telecommunications Courses Electrical Engineering Courses Signal Processing Courses Graph Theory Courses Fourier Series Courses Filter Design Courses Network Analysis Courses Laplace Transform Courses Bode Plots Courses

Course Description

Overview

Instructor: Prof. T.K. Basu, Department of Electrical Engineering, IIT Kharagpur.

The course covers lessons in digital signal processing: Electrical- Networks, Signals and Systems. Topics include Discrete-Time Signal and System, Frequency Domain Representation of Discrete Signals, z-Transform, Solution of Difference Equation, Tutorial on Discrete-Time Signals and their Transforms, Relation between Discrete-Time and Continuous Signals, Discrete Fourier Transform, State Space Representation, Filters, FIR Filters, IIR Filters, Computer-Aided Design of Filters, Lattice Filter, Effects of Quantization, Relationship between Real and Imaginary Parts of DTFT, and Multirate Signal Processing.


Syllabus

Lecture - 1 Introduction to Network Elements and Sources.
Lecture - 2 Introduction to Linearity and Nonlinearity.
Lecture - 3 Distributed & Lumped Parameters 2-port Networks.
Lecture - 4 Two-port Parameters Short Circuit,Open Circuit.
Lecture - 5 Tutorial.
Lecture - 6 LocusDiagram - Introduction to Signals.
Lecture - 7 Signals (contd.) Laplace Transforms.
Lecture - 8 Laplace Transform (contd.).
Lecture - 9 Tutorial on Laplace Transform.
Lecture - 10 Frequency Response Bode Plot.
Lecture - 11 Bode Plot ( contd.).
Lecture - 12 Bode Plot ( contd.) - Poles & Zeros.
Lecture - 13 Driving Point Immittance Functions.
Lecture - 14 Two - Element Synthesis.
Lecture - 15 Two - Element Synthesis (contd.).
Lecture - 16 Tutorial.
Lecture - 17 Tutorial.
Lecture - 18 Graph Theory.
Lecture - 19 Graph Theory (Contd. ).
Lecture - 20 Graph Theory (Contd.).
lecture - 21 Graph Theory (Contd.).
Lecture - 22 Image Impedance, Iterative Impedance.
Lecture - 23 Image Impedance, Iterative Impedance.
Lecture - 24 Characteristic Impedance and Design of Filters.
Lecture - 25 Analysis of Resistive Networks Computer Aided.
Lecture - 26 R-L-C Two-Terminal Network.
Lecture - 27 Parts of Network Functions.
Lecture - 28 Parts of Network Functions (Contd.).
Lecture - 29 Tutorial.
Lecture - 30 Tutorial (Contd.).
Lecture - 31 Tutorial.
Lecture - 32 Synthesis of 2-port Network.
Lecture - 33 Synthesis of 2 - port Network (Contd.).
Lecture - 34 Synthesis of 2 - port Network (Contd.).
Lecture - 35 Fourier Series.
Lecture - 36 Fourier Series (Contd.).


Taught by

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