Section outline

• Select section Day 1 – Fundamentals of Wireless Communications (7 Hours)

  Day 1 – Fundamentals of Wireless Communications (7 Hours)

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  Module 1: Modern Wireless Systems (3.5 Hours)

  • Evolution of Wireless Communication
  • Radio Spectrum & Frequency Allocation
  • Spectral Efficiency & Modulation Trade-offs
  • Wireless Channel Models & Interference Management
  • Frequency Reuse, Handoffs & Channel Assignment

  Module 2: Signal Propagation & Interference (3.5 Hours)

  • Delay Spread & Intersymbol Interference (ISI)
  • Frequency-Selective Fading & Equalization
  • Doppler Effect & Coherence Time
  • Shadow Fading & Channel Characterization
• Select section Day 2 – Modulation & Multi-Carrier Transmission (7 Hours)

  Day 2 – Modulation & Multi-Carrier Transmission (7 Hours)

  Module 3: Digital Modulation Techniques (3.5 Hours)

  • Shannon Capacity & Entropy in Wireless Systems
  • Quadrature Modulation & QAM Constellations
  • High-Order Modulation (256-QAM, 1024-QAM) & Spectral Efficiency
  • Pulse Shaping & Raised-Cosine Filtering

  Module 4: Multi-Carrier Transmission (OFDM & OFDMA) (3.5 Hours)

  • OFDM Subcarrier Spacing & Symbol Duration
  • Cyclic Prefix & Spectral Efficiency Optimization
  • Peak-to-Average Power Ratio (PAPR) & Cubic Metric
  • Fast Fourier Transform (FFT) & Inverse FFT in OFDM
  • Power Loading & Adaptive Modulation in OFDMA
• Select section Day 3 – Error Control, Signal Estimation & MIMO Systems (7 Hours)

  Day 3 – Error Control, Signal Estimation & MIMO Systems (7 Hours)

  Module 5: Error Control & Channel Coding (3.5 Hours)

  • Block Codes vs. Convolutional Codes
  • Turbo Codes, Reed-Muller Codes & LDPC Codes
  • Polar Codes in 5G & Beyond
  • Hybrid Automatic Repeat Request (HARQ) Mechanisms

  Module 6: Signal Estimation & Detection (3.5 Hours)

  • Maximum Likelihood Estimation (MLE) & MAP Estimation
  • Digital Transmission in the Presence of Noise
  • Path Loss Estimation & Signal Detection Techniques
• Select section Day 4 – Multi-Antenna & Multiple Access Techniques (7 Hours)

  Day 4 – Multi-Antenna & Multiple Access Techniques (7 Hours)

  Module 7: Multi-Antenna MIMO Systems (3.5 Hours)

  • Benefits & Challenges of MIMO
  • Space-Time Block Coding (STBC) & Alamouti STBC
  • Beamforming & Antenna Diversity Techniques
  • MIMO-OFDM Integration for 4G/5G Networks

  Module 8: Multiple Access Communications (3.5 Hours)

  • Comparison of FDMA, TDMA & OFDMA
  • Carrier Sense Multiple Access (CSMA) & Collision Avoidance
  • Bandwidth Reservation & Adaptive Resource Allocation
• Select section Day 5 – AI, Deep Learning & Hands-on MATLAB (7 Hours)

  Day 5 – AI, Deep Learning & Hands-on MATLAB (7 Hours)

  Module 9: DSP in Wireless Communications (2.5 Hours)

  • Noise Analysis & Random Processes in Wireless Systems
  • Channel Estimation & Equalization Techniques
  • Carrier Frequency Offset Estimation & Correction
  • Advanced Data Converters & Fractional-N PLLs

  Module 10: AI & Deep Learning for Wireless Communications (2.5 Hours)

  • AI-Based Modulation & Coding Adaptation
  • Neural Networks for Spectrum Sensing
  • Deep Learning for Channel Estimation & MIMO Detection
  • AI-Driven Indoor Positioning & Localization

  Module 11: MATLAB Hands-on Project (2 Hours)

  • OFDM Signal Generation & Error Analysis
  • MIMO System Implementation with Beamforming
  • AI-Based Modulation Classification in Wireless Systems