Communication Systems Simulation using SystemVue

I have applied for a grant to write a community college level textbook on using SystemVue. If you have any comments or suggestions, please feel free to email me.

Possible Table of Contents

1.0 Introduction to SystemVue

1.1 Systems window

1.11 Tokens

1.12 Libraries

1.2 System Time

1.21 Sampling rate

1.22 Number of samples

1.23 Frequency resolution

2.0 Sampling

2.1 Nyquist rate

2.2 Sampling artifacts

2.21 Aperture error

2.22 Aliasing

2.23 Quantization

2.3 Fourier transform

2.4 Companding

2.41 A-law, mu-law

2.5 Examples: PSTN, CD audio

3.0 Analog Modulation

3.1 AM/PM/FM

3.11 Bandwidth

3.2 Mixing & heterodyning

3.21 Mixed sampling rate modeling

3.22 Balanced mixer

3.3 Spectral analysis

3.4 Examples: AM/FM transmitters SSB: filter, phase, Weaver FM: Armstrong, Crosby

4.0 Analog Demodulation

4.1 IF mixing

4.2 Detectors: envelop, synchronous, PLL, slope

4.3 Bandpass/Lowpass filters

4.4 Examples: AM/FM receivers

5.0 Digital Modulation

5.1 ASK, FSK, PSK

5.2 QPSK, QAM, CDMA

5.3 Eye & constellation diagrams

5.31 S/N ratio

5.32 Sampling instant

6.0 Digital demodulation

6.1 Clock regeneration

6.11 Squaring loop

6.12 Phase locked loop

6.13 Costas loop

6.2 Processing delay

6.3 Noise effects

6.4 Examples: Bell, ITU modems

7.0 Nyquist Channels

7.1 Cosine channel

7.2 Raised cosine channel

7.3 Root raised cosine channel Examples: ISDN, GSM tranceiver

8.0 Digital Signal Processing

8.1 FIR filters 8.2 Impulse response

8.3 Intro to Laplace and Z transforms

8.4 Intro to root locus

 

Existing Material

Getting Started

AM Radio System

SSB Radio System

Basic FM

Digital Modulation

PLL

GSM Transceiver

Bluetooth

Spectral Analysis

Sampling

Mixers

Noise

Companding

Vector Modulators

TDM

Phase Locked Loop

Nyquist Channels

Convolution Coding

 

Files Index