Resources

1. Module-1

• Lecture-1 (Signal Space and System Model)

• Lecture 2 (Gram-Schmidt Orthogonalization Procedure)

2. Module-2

   • Lecture-1 (Likelihood Function)

   • Lecture-2 (MAP and ML Rule)

3. Module-3

   • Lecture-1 (Probability of Error and Union Bound)

4. Module-4

   • Lecture-1 (Correlation Receiver and Matched Filter Receiver)

   • Lecture-2 (Maximization of Output SNR and Example of Matched Filter)

5. Module-5

• Lecture-1 (BPSK) Part-1

• Lecture-1 (BPSK) Part-2

• Lecture-2 (BFSK)

6. Module-6

• Lecture-1 (QPSK)

7. Module-7

• Lecture-1 (MSK)

• Lecture-2 (DPSK)

8. Module -8

• Lecture -1 (M-ary Modulaion)

9. Module-9

• Lecture-1 (Linear Block Code)

• Lecture-2 (Convolution Code)

1. Module-1 (Signal Space Concept and GSOP)

2. Module-2 (ML Rule)

3. Module-3 (Prob.of Error)

4. Module-4 (Coherent Receiver and Matched Filter)

5. Module-5 (BPSK, BFSK and Prob.of Error)

6. Module-6 (QPSK)

7. Module-7 (MSK and DPSK)

8. Module-8 (M-ary Modulation)

9. Module-9 (Error Control Coding)

1. Digital Communication System by Simon Haykin

2. Digital Communication by Simon Haykin

3. Analog and Digital Communication (Schaum's Outlines, 2nd Edition)