Class Notes

My class notes in PDF format.
Disclaimer - These are notes I make to teach class and often I do not stick to these notes. I may have notation left over from
previous years as well. Please let me know if you find these errors. I will fix them.

  1. Introduction
  2. Background Material
  3. Complex Baseband Equivalent Signals
  4. Description of commonly used modulation formats
  5. Basics of Detection Principles
  6. Probability of error, bounds
  7. Implementing the optimal receiver in baseband
  8. Non-coherent Detection
  9. Differential Detection
  10. Comparison of Modulation Formats
  11. Design of pulse shapes for no ISI
  12. Design of Transmit and Receive Filters
  13. Viterbi Algorithm

Class notes in wiki format. This is a work in progress…

  1. Background Material (lot of work needs to done)
  2. Complex Baseband Equivalents of Deterministic Passband Signals (okay for a first draft)
  3. Complex Baseband Equivalents of Passband Random Processes (okay for a first draft)
  4. Description of Modulation Formats (lot of work needs to be done)
  5. Basics of Detection Principles (lot of work needs to be done)
  6. Implementing the Optimal Receiver in Baseband (lot of work needs to be done)
  7. Probability of error calculation and bounds (lot of work needs to be done)
  8. Detection in the presence of random parameters (Noncoherent Detection) (lot of work needs to be done)
  9. Differential Detection (lot of work needs to be done)
  10. Design of Pulse shapes for no ISI (lot of work needs to be done)
  11. Design of Transmit and Receive filters (lot of work needs to be done)
  12. Equalization(lot of work needs to be done)

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