Lectures

The following lectures present the current semesters ago with the appropriate content outlines. These lectures can be possibly reduced amount held in the context of continuing education series.

Introduction Security Equipment
Basics of Stochastic Processes in Communications Technologies

Contents

  1. Introduction
  2. Theoretical Basics of Stochastic Processes in Radio Engineering
    1. The Derivation of the FOKKER - PLANCK Equation
      1. Methods for Solution of the Fokker-Planck Equation
      2. Examples of Markov Processes
        1. Simple Diffusion Process
        2. Gaussian Process with Stationary Distribution
      3. FOKKER - PLANCK Equation in the Multidimensional Case
    2. Derivation of the Equation for the a Posteriori Distribution Function
      1. Posteriori Density Function in the Asymmetric Form
      2. Posteriori Density Function in the Symmetric Form
    3. Use of the a Posteriori Density Function for Problems of adaptive Receiving
      1. Development of the a Posteriori Density Function in a Taylor Series
      2. Development of the a Posteriori Density Function by Cumulant Function
    4. The Methods of Adaptive Receiving
    5. Signal Estimation by Using Linear Systems
      1. Optimal Filtering
      2. Interpolation
      3. Extrapolation
    6. Signal Estimation by Using Nonlinear Systems
  3. Radio Systems for Communication
    1. Analogous Modulation
      1. Amplitude Modulation
      2. Frequency Modulation
      3. Phase modulation
    2. Digital Modulation
      1. Amplitude Shift Keying
      2. Frequency Shift Keying
      3. Phase Shift Keying
      4. Multilevel Keying
    3. Comparison of different Digital Modulation
  4. Summary and Conclusions
Procedures of Modulation

Contents

  1. Introduction
  2. Analogous Modulation
    1. Amplitude Modulation
    2. Frequency Modulation
    3. Phase Modulation
  3. Digital Modulation
    1. Amplitude Shift Keying
    2. Frequency Shift Keying
    3. Phase Shift Keying
    4. Mixed method
  4. Comparison of Modulation
Spread Spectrum Transmission

Contents

  1. Introduction
  2. Basics and Advantages of the Spread Spectrum Transmission
  3. Frequency Hopping
  4. Chirp Transmission
  5. Direct Sequence Transmission
  6. Summary and Comparison
Basics of Multiplexing and Access Technologies

Contents

  1. Introduction
  2. Frequency Division Multiple Access - FDMA
  3. Time Division Multiple Access - TDMA
  4. Code Division Multiple Access - CDMA
  5. Space Division Multiple Access - SDMA
  6. Summary and Comparison
Fundamentals of Electromagnetic Waves

Contents

  1. Introduction
  2. Electromagnetic Field
    1. Electrical Field
    2. Parameters of Magnetic Field
    3. Maxwell's Equations
    4. Poynting Vector
  3. Planar Waves
    1. Equation of Planar Waves
    2. Slightly Damped Planar Waves
      1. Planar Waves in Freespace
      2. Planar Waves in Lossless Materials
      3. Polarization
      4. Wave Vector
    3. Strongly Damped Planar Waves
    4. Ideal Conductor
    5. Dissipation
  4. Guided Waves
    1. Symmetric Cable
    2. Coaxial Cable
    3. Waveguide Cable
    4. Quasi-TEM Waveguides
      1. Microstrip Line
      2. Coplanar Line
  5. Antennas
    1. Transceiver Systems
    2. Hertz Dipole
    3. Linear Antennas
    4. Planar Antennas
  6. Conclusion
Introduction to Microwave Engineering

Contents

  1. Foreword
  2. Fundamentals of Theory of Line
    1. Lossless Line
    2. Loss Line
    3. Factor of Reflection
  3. Smith Chart
    1. Impedance Transformation
    2. Admittance Transformation
    3. Matching Networks 
  4. Scattering Parameters ( S-Parameters )
    1. Definition of Scattering Parameters
    2. Properties of Scattering Parameters
    3. Scattering matrices of N -Networks
      1. Twoport
      2. Threeport
      3. Fourport
    4. Signal Flow
  5. Passive Microwave Integrated Circuits
    1. Basics
      1. Substrate Material
      2. Methods for Production
    2. Discontinuities of Microstrip Lines
    3. Passive Components with Microstrip Lines
  6. Microwave Amplifier
    1. Stability Parameters of Twoports
    2. Gain of Twoports
    3. Design of Transistor Amplifiers
    4. Concepts for Microwave Amplifiers
  7. Summary