MATLAB for Digital Communication
This week we focus on this book for digital comunication from Won Yang.
The book is full of Matlab coded examples that can be downloaded here.
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- CHAPTER 1: FOURIER ANALYSIS
- 1.1 CONTINUOUS-TIME FOURIER SERIES (CTFS)
- 1.2 PROPERTIES OF CTFS
- 1.2.1 Time-Shifting Property
- 1.2.2 Frequency-Shifting Property
- 1.2.3 Modulation Property
- 1.3 CONTINUOUS-TIME FOURIER TRANSFORM (CTFT)
- 1.4 PROPERTIES OF CTFT
- 1.4.1 Linearity
- 1.4.2 Conjugate Symmetry
- 1.4.3 Real Translation and Complex Translation
- 1.4.4 Real Convolution and Correlation
- 1.4.5 Complex Convolution – Modulation/Windowing
- 1.4.6 Duality
- 1.4.7 Parseval Relation – Power Theorem
- 1.5 DISCRETE-TIME FOURIER TRANSFORM (DTFT)
- 1.6 DISCRETE-TIME FOURIER SERIES – DFS/DFT
- 1.7 SAMPLING THEOREM
- 1.7.1 Relationship between CTFS and DFS
- 1.7.2 Relationship between CTFT and DTFT
- 1.7.3 Sampling Theorem
- 1.8 POWER, ENERGY, AND CORRELATION
- 1.9 LOWPASS EQUIVALENT OF BANDPASS SIGNALS
- CHAPTER 2: PROBABILITY AND RANDOM PROCESSES
- 2.1 PROBABILITY
- 2.2 LINEAR FILTERING AND PSD OF A RANDOM PROCESS
- 2.3 FADING EFFECT OF A MULTI-PATH CHANNEL
- CHAPTER 3: ANALOG MODULATION
- 3.1 AMPLITUDE MODULATION (AM)
- 3.1.1 DSB (Double Sideband)-AM (Amplitude Modulation)
- 3.1.2 Conventional AM (Amplitude Modulation)
- 3.1.3 SSB (Single Sideband)-AM(Amplitude Modulation)
- 3.2 ANGLE MODULATION – FREQUENCY/PHASE MODULATIONS
- 3.1 AMPLITUDE MODULATION (AM)
- CHAPTER 4: ANALOG-TO-DIGITAL CONVERSION
- 4.1 QUANTIZATION
- 4.1.1 Uniform Quantization
- 4.1.2 Non-uniform Quantization
- 4.1.3 Non-uniform Quantization Considering Relative Errors
- 4.2 Pulse Code Modulation (PCM)
- 4.3 Differential Pulse Code Modulation (DPCM)
- 4.4 Delta Modulation (DM)
- 4.1 QUANTIZATION
- CHAPTER 5: BASEBAND DIGITAL TRANSMISSION
- 5.1 RECEIVER (RCVR) and SNR
- 5.1.1 Receiver of Filter Type
- 5.1.2 Receiver of Matched Filter Type
- 5.1.3 Signal Correlator
- 5.2 SIGNALING AND ERROR PROBABILITY
- 5.2.1 Antipodal (Bipolar) Signaling
- 5.2.2 OOK(On-Off Keying)/Unipolar Signaling
- 5.2.3 Orthogonal Signaling
- 5.2.4 Signal Constellation Diagram
- 5.2.5 Simulation of Binary Communication
- 5.2.6 Multi-level(amplitude) PAM Signaling
- 5.2.7 Multi-dimensional Signaling
- 5.2.8 Bi-orthogonal Signaling
- 5.1 RECEIVER (RCVR) and SNR
- CHAPTER 6: BANDLIMITED CHANNEL AND EQUALIZER
- 6.1 BANDLIMITED CHANNEL
- 6.1.1 Nyquist Bandwidth
- 6.1.2 Raised-Cosine Frequency Response
- 6.1.3 Partial Respone Signaling – Duobinary Signaling
- 6.2 EQUALIZER
- 6.2.1 Zero-Forcing Equalizer (ZFE)
- 6.2.2 MMSE Equalizer (MMSEE)
- 6.2.3 Adaptive Equalizer (ADE)
- 6.2.4 Decision Feedback Equalizer (DFE)
- 6.1 BANDLIMITED CHANNEL
- CHAPTER 7: PASSBAND DIGITAL TRANSMISSION
- 7.1 AMPLITUDE MODULATION – AMPLITUDE SHIFT KEYING (ASK)
- 7.2 FREQUENCY MODULATION – FREQUENCY SHIFT KEYING (FSK)
- 7.3 PHASE MODULATION – PHASE SHIFT KEYING (PSK)
- 7.4 DIFFERENTIAL PHASE SHFT KEYING (DPSK)
- 7.5 QUADRATURE AMPLITUDE MODULATION (QAM) – PAM/PSK
- 7.6 COMPARISON OF VARIOUS SIGNALINGS
- CHAPTER 8: CARRIER RECOVERY AND SYMBOL SYNCHRONIZATION
- 8.1 INTRODUCTION
- 8.2 PLL (PHASE-LOCKED LOOP)
- 8.3 ESTIMATION OF CARRIER PHASE USING PLL
- 8.4 CARRIER PHASE RECOVERY
- 8.4.1 Carrier Phase Recovery Using Squaring Loop for BPSK
- 8.4.2 Carrier Phase Recovery Using Costas Loop for PSK
- 8.4.3 Carrier Phase Recovery for QAM Signals
- 8.5 SYMBOL SYNCHRONIZATION (TIMING RECOVERY)
- 8.5.1 Early-Late Gate Timing Recovery for BPSK Signals
- 8.5.2 NDA-ELD Synchronizer for PSK Signals
- CHAPTER 9: INFORMATION AND CODIN
- 9.1 MEASURE OF INFORMATION – ENTROPY
- 9.2 SOURCE CODING
- 9.2.1 Huffman Coding
- 9.2.2 Lempel-Zip-Welch Coding
- 9.2.3 Source Coding vs. Channel Coding
- 9.3 CHANNEL MODEL AND CHANNEL CAPACITY
- 9.4 CHANNEL CODING
- 9.4.1 Waveform Coding
- 9.4.2 Linear Block Coding
- 9.4.3 Cyclic Coding
- 9.4.4 Convolutional Coding and Viterbi Decoding
- 9.4.5 Trellis-Coded Modulation (TCM)
- 9.4.6 Turbo Coding
- 9.4.7 Low-Density Parity-Check (LDPC) Coding
- 9.4.8 Differential Space-Time Block Coding (DSTBC)
- 9.5 CODING GAIN
- CHAPTER 10: SPREAD-SPECTRUM SYSTEM
- 10.1 PN (Pseudo Noise) Sequence
- 10.2 DS-SS (Direct Sequence Spread Spectrum)
- 10.3 FH-SS (Frequency Hopping Spread Spectrum)
- CHAPTER 11: OFDM SYSTEM
- 11.1 OVERVIEW OF OFDM
- 11.2 FREQUENCY BAND AND BANDWIDTH EFFICIENCY OF OFDM
- 11.3 CARRIER RECOVERY AND SYMBOL SYNCHRONIZATION
- 11.4 CHANNEL ESTIMATION AND EQUALIZATION
- 11.5 INTERLEAVING AND DEINTERLEAVING
- 11.6 PUNCTURING AND DEPUNCTURING
- 11.7 IEEE STANDARD 802.11A – 1999
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