YoVDO

Networks, Signals and Systems

Offered By: NPTEL via YouTube

Tags

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

nptelhrd

Tags

Related Courses

Aplicaciones de la teoría de grafos a la vida real
Miríadax
Aplicaciones de la Teoría de Grafos a la vida real
Universitat Politècnica de València via UPV [X]
Introduction to Computational Thinking and Data Science
Massachusetts Institute of Technology via edX
Genome Sequencing (Bioinformatics II)
University of California, San Diego via Coursera
Algorithmic Information Dynamics: From Networks to Cells
Santa Fe Institute via Complexity Explorer