1.11 Representation of Narrowband Noise in terms of In-Phase and Quadrature Components, 1.12 Representation of Narrowband Noise in Terms of Envelope and Phase Components, 1.13 Sine Wave Plus Narrowband Noise, 1.14 Computer Experiments: Flat-Fading Channel, 1.15 Summary and Discussion, Ch.2 Continuous Wave Modulation, 2.1 Introduction, 2.2 Amplitude Modulation, A3.1 Stepwise solution of the Basso Function, A3.2 Properties of the Basso Function, A3.3 Modified Basso Functions

Homepage » ALL COURSE » College of Electrical and Computer Engineering » Introduction to Communication Systems – 108 Academic Year | College of Electrical and Computer Engineering Prof. Po-Ning Chen » 1.11 Representation of Narrowband Noise in terms of In-Phase and Quadrature Components, 1.12 Representation of Narrowband Noise in Terms of Envelope and Phase Components, 1.13 Sine Wave Plus Narrowband Noise, 1.14 Computer Experiments: Flat-Fading Channel, 1.15 Summary and Discussion, Ch.2 Continuous Wave Modulation, 2.1 Introduction, 2.2 Amplitude Modulation, A3.1 Stepwise solution of the Basso Function, A3.2 Properties of the Basso Function, A3.3 Modified Basso Functions

1.11 Representation of Narrowband Noise in terms of In-Phase and Quadrature Components, 1.12 Representation of Narrowband Noise in Terms of Envelope and Phase Components, 1.13 Sine Wave Plus Narrowband Noise, 1.14 Computer Experiments: Flat-Fading Channel, 1.15 Summary and Discussion, Ch.2 Continuous Wave Modulation, 2.1 Introduction, 2.2 Amplitude Modulation, A3.1 Stepwise solution of the Basso Function, A3.2 Properties of the Basso Function, A3.3 Modified Basso Functions

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Course Content	Course Video	Course Download
Ch.1 Random Process 1.1 Introduction A1.1 Probability Concept A1.2 Random Variable	Watch Online	MP4 Download
1.1 Introduction A1.2 Random Variable 1.2 Mathematical Definition of a Random Process 1.3 Stationary Process	Watch Online	MP4 Download
1.3 Stationary Process A1.3 Statistical Averages 1.4 Mean, Correlation and Covariance Functions 1.5 Ergodic Process 1.6 Transmission of a Random Process Through a Linear Time-Invariant System	Watch Online	MP4 Download
1.6 Transmission of a Random Process Through a Linear Time-Invariant System A2.1 Fourier Analysis	Watch Online	MP4 Download
1.6 Transmission of a Random Process Through a Linear Time-Invariant System A2.1 Fourier Analysis 1.7 Power Spectral Density	Watch Online	MP4 Download
1.7 Power Spectral Density	Watch Online	MP4 Download
1.7 Power Spectral Density 1.8 Gaussian Process 1.9 Noise	Watch Online	MP4 Download
1.9 Noise 1.10 Narrowband Noise A2.2 Bandwidth A2.3 Hilbert Transform	Watch Online	MP4 Download
1.10 Narrowband Noise A2.4 Complex Representation of Signal and System 1.11 Representation of Narrowband Noise in terms of In-Phase and Quadrature Components	Watch Online	MP4 Download
1.11 Representation of Narrowband Noise in terms of In-Phase and Quadrature Components 1.12 Representation of Narrowband Noise in Terms of Envelope and Phase Components 1.13 Sine Wave Plus Narrowband Noise 1.14 Computer Experiments: Flat-Fading Channel 1.	Watch Online	MP4 Download
2.2 Amplitude Modulation 2.3 Linear Modulation Scheme	Watch Online	MP4 Download
2.3 Linear Modulation Scheme 2.4 Frequency Translation 2.5 Frequency Division on Multiplexing	Watch Online	MP4 Download
2.4 frequency translation 2.5 Frequency Division on Multiplexing 2.6 angle modulation 2.7 frequency modulation	Watch Online	MP4 Download
2.7 frequency modulation 2.8 Nonlinear effects in FM systems 2.9 Superheterodyne Receiver 2.10 Noise in CW Modulation Systems	Watch Online	MP4 Download
2.10 Noise in CW Modulation Systems 2.11 Noise in Linear Receivers Using Coherent Detection 2.12 Noise in AM Receivers Using Envelope Detection A4 Confluent Hypergeometric Functions 2.13 Noise in FM Receivers	Watch Online	MP4 Download
2.13 Noise in FM Receivers	Watch Online	MP4 Download
2.14 Computer Experiments: Phase-Locked Loop 2.15 Summary and Discussion Ch.3 Pulse Modulation 3.1 Introduction 3.2 sampling process	Watch Online	MP4 Download
3.2 sampling process 3.3 Pulse-Amplitude Modulation 3.4 Other Forms of Pulse Modulation 3.5 Bandwidth-Noise Trade-Off 3.6 Quantization Process	Watch Online	MP4 Download
3.6 Quantization Process 3.7 Pulse-Code Modulation	Watch Online	MP4 Download
3.7 Pulse-Code Modulation 3.8 Noise Consideration in PCM Systems 3.9 Time-Division Multiplexing 3.10 Digital Multiplexers	Watch Online	MP4 Download
3.10 Digital Multiplexers 3.11 Virtues, Limitations, and Modifications of PCM 3.12 Delta Modulation 3.13 Linear Prediction	Watch Online	MP4 Download
3.13 Linear Prediction 3.14 Differential Pulse-Code Modulation 3.15 Adaptive Differential Pulse-Code Modulation 3.16 Computer Experiment: Adaptive Delta Modulation 3.17 MPEG Audio Coding Standard 3.18 Summary and Discussion Ch4 Baseband Pulse Transmission	Watch Online	MP4 Download
4.3 Error Rate due to Noise 4.4 Inter symbol Interference 4.5 Nyquist’s Criterion for Distortionless Baseband Binary Transmission	Watch Online	MP4 Download
4.4 Inter symbol Interference 4.5 Nyquist’s Criterion for Distortionless Baseband Binary Transmission 4.6 Correlative-Level Coding	Watch Online	MP4 Download
4.6 Correlative-Level Coding 4.7 baseband M-ary PAM Transmission	Watch Online	MP4 Download
4.7 baseband M-ary PAM Transmission 4.8 Digital Subscriber Lines 4.9 optimum linear receiver	Watch Online	MP4 Download
4.9 optimum linear receiver 4.10 Adaptive Equalization 4.11 Computer Experiments: Eye Patterns 4.12 Summary and Discussion Ch.5 Signal space Analysis 5.1 Introduction 5.2 Geometric Representation of Signals	Watch Online	MP4 Download
5.2 Geometric Representation of Signals 5.3 Conversion of the Continuous AWGN Channel to a Vector Channel 5.4 Likelihood Functions	Watch Online	MP4 Download
5.4 Likelihood Functions 5.5 Coherent Detection of Signals in Noise: Maximum Likelihood Decoding 5.6 Correlation Receiver 5.7 Probability of Error 5.8 Summary and Discussion	Watch Online	MP4 Download

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