Analog & Digital Communication (English)

   Wednesday, March 05, 2025   

Starting a new Lecture Notes Series on Analog & Digital Communication

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Channel Name: EPOV CHANNEL

So Let Us Start to This Journey of Learning 

Analog & Digital Communication By Lecture Notes together!

Lecture 1: LECT-1 : INTRODUCTION TO COMMUNICATION SYSTEM

Lecture 2: LECT-2 : NEED OF MODULATION & CLASSIFICATION .

Lecture 3: LECT-3: AMPLITUDE MODULATION (AM/DSB-FC)

Lecture 4: LECT-4 : SINGLE TONE AM (DSB-FC) , TOTAL POWER & TRANSMISSION EFFICIENCY.

Lecture 5: LECT-5 : GRAPHICAL REPRESENTATION OF AM/DSB-FC , % POWER SAVING , MULTI-TONE AM .

Lecture 6: LECT-6 : GENERATION OF AM/DSB-FC

Lecture 7: LECT-7 : DEMODULATION OF AM/DSB-FC

Lecture 8: LECT-8: DSB-SC MODULATION (TIME DOMAIN & FREQUENCY DOMAIN)

Lecture 9: LECT-9: GENERATION OF DSB-SC WAVE.

Lecture 10: LECT-10: DEMODULATION OF DSB-SC WAVE

Lecture 11: LECT-11 : SSB MODULATION (TIME DOMAIN & FREQUENCY DOMAIN DESCRIPTION)

Lecture 12: LECT-12 : GENERATION OF SSB WAVE

Lecture 13: LECT-13 : DEMODULATION OF SSB WAVE

Lecture 14: LECT-14 : VSB : INTRODUCTION & ITS GENERATION

Lecture 15: LECT-15 : DEMODULATION OF VSB WAVE

Lecture 16: LECT-16 : SUPERHETERODYNE RECEIVER & CONCEPT OF IMAGE SIGNAL

Lecture 17: LECT-17: ANGLE MODULATION ( PM & FM )

Lecture 18: LECT-18: PROPERTIES & RELATIONSHIP BETWEEN PM & FM.

Lecture 19: LECT-19: (NBFM) NARROW BAND FREQUENCY MODULATION

Lecture 20: LECT-20: (WBFM) WIDE BAND FREQUENCY MODULATION

Lecture 21: LECT-21: TRANSMISSION BANDWIDTH OF FM (CARSON'S RULE)

Lecture 22: LECT-22: GENERATION OF FM WAVE (DIRECT & INDIRECT METHOD)

Lecture 23: LECT-23: DEMODULATION OF FM WAVE USING FREQUENCY DISCRIMINATOR.

Lecture 24: LECT-24: DEMODULATION OF FM WAVE USING PLL (PHASE LOCKED LOOP)

Lecture 25: LECT-25: Sampling , Aliasing & Nyquist Rate

Lecture 26: LECT-26: Generation of Pulse Amplitude Modulation (PAM)

Lecture 27: LECT-27: Demodulation of Pulse Amplitude Modulation (PAM)

Lecture 28: LECT-28: PPM (Pulse Position Modulation) & PWM (Pulse Width Modulation) : Generation & Detection.

Lecture 29: LECT-29: Quantization Process & Quantization noise

Lecture 30: LECT-30: Classification of Quantization process (Uniform & Non-uniform)

Lecture 31: LECT-31: PCM (Pulse Code Modulation) : Generation & Detection.

Lecture 32: LECT-32: DM (Delta Modulation) : Generation & Detection.

Lecture 33: LECT-33: ADM (Adaptive Delta Modulation - Delta-Sigma Modulation) : Generation & Detection.

Lecture 34: LECT-34: DPCM (Differential Pulse code Modulation) : Generation & Detection.

Lecture 35: LECT-35: Line Coding in Digital Communication

Lecture 36: LECT-36: Matched Filter : Baseband transmission of digital signals.

Lecture 37: LECT-37: Properties of Matched Filter.

Lecture 38: LECT-38: Numerical Problem -Matched Filter

Lecture 39: LECT-39: Inter symbol Interference (ISI) in Baseband transmission of binary data.

Lecture 40: LECT-40: Nyquist Criterion for zero ISI

Lecture 41: LECT-41: Nyquist solution & Raised Cosine roll off filter for Zero ISI.

Lecture 42: LECT-42: Eye Pattern & M-Array PAM system

Lecture 43: LECT-43: Equalization using Tapped Delay Line Filter.

Lecture 44: LECT-44 : Passband data transmission (INTRODUCTION)

Lecture 45: LECT-45: ASK - Signal Constellation diagram , PSD & Transmission Bandwidth.

Lecture 46: LECT-46: FSK - Signal Constellation diagram , PSD & Transmission Bandwidth.

Lecture 47: LECT-47: Probability / Random Variable / Random Process

Lecture 48: LECT-48 : Relation between Sample Space , Event & Probability

Lecture 49: LECT-49: Probability Mass function / Probability Distribution function

Lecture 50: LECT-50: PDF / Joint PDF / Marginal Density function / Conditional PDF

Lecture 51: LECT-51: Mean / Variance / Covariance

Lecture 52: LECT-52: Gaussian PDF / Distribution function(CDF)

Lecture 53: LECT-53: Introduction of Q-Function / Relation between PDF ,CDF & Q-function

Lecture 54: LECT-54: Relation between Q-function & Complementary Error function

Lecture 55: LECT-55: Effect of Gaussian Noise & Threshold Detection / Error Rate

Lecture 56: LECT-56 : Random Process

Lecture 57: LECT-57: Correlation / Autocorrelation / Wide Sense Stationary Random Processs

Lecture 58: LECT-58: Ergodicity /Ensemble Average/ Time Average

Lecture 59: LECT-59: Response of LTI system with RP as input

Lecture 60: LECT-60: Power Spectral Density / Properties

Lecture 61: LECT-61: Gaussian Process /White Noise

Lecture 62: LECT-62: Narrowband Noise

Lecture 63: LECT-63: Detection and Estimation in Digital Communication System

Lecture 64: LECT-64: Representation of finite energy signals as Vectors

Lecture 65: LECT-65: Estimation of known signal in AWGN Channel

Lecture 66: LECT-66: Maximum Likelihood Receiver

Lecture 67: LECT-67: Probability of error using Signal Constellation

Lecture 68: LECT-68: Noise in Analog Modulation /INTRODUCTION

Lecture 69: LECT-69: Noise in DSB-SC receivers (COHERENT DETECTION)

Lecture 70: LECT-70: Noise in AM receivers using Envelope Detector.

Lecture 71: LECT-71: Noise in AM-SSB Receiver

Lecture 72: LECT-72: Noise in FM Receiver

Lecture 73: LECT-73: Pre-emphasis & De-emphasis in FM