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Figure 6.1. A convolutional encoder. Figure 6.2. Structure of a systematic convolutional encoder of rate.

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Presentation on theme: "Figure 6.1. A convolutional encoder. Figure 6.2. Structure of a systematic convolutional encoder of rate."— Presentation transcript:

1 Figure 6.1. A convolutional encoder

2 Figure 6.2. Structure of a systematic convolutional encoder of rate

3 Figure 6.3. Convolutional encoder of rate

4 Figure 6.4. Encoder of convolutional code of code rate

5 Figure 6.5. State diagram for the convolutional encoder of Figure 6.3

6 Figure 6.6. Trellis representation of the convolutional code of Figure 6.3

7 Figure 6.7. A systematic convolutional encoder

8 Figure 6.8. A FIR FSSM

9 Figure 6.9. IIR FSSM

10 Figure 6.10. FIR FSSM in the discrete time domain

11 Figure 6.11. An IIR FSSM

12 Figure 6.12. Equivalent systematic convolutional encoder of the encoder of Figure 6.3

13 Figure 6.13. Trellis for the convolutional encoder of Figure 6.12

14 Figure 6.14. General structure of systematic IIR convolutional encoders of rate

15 Figure 6.15. Modified state diagram

16 Figure 6.16. Minimum free distance sequence evaluated on the trellis

17 Figure 6.17. Hamming distance calculations for the Viterbi algorithm

18 Figure 6.18. Survivor paths in the Viterbi algorithm

19 Figure 6.19. Viterbi decoding algorithm, time instant

20 Figure 6.20. Viterbi decoding algorithm, decoded sequence at time instant

21 Figure 6.21. Extended and modified state diagram

22 Figure 6.22. Vector representation (polar format) of code vectors in a vector space of dimension

23 Figure 6.23. Signal resulting from the transmission of the code vector in polar format over a Gaussian channel

24 Figure 6.24. A soft decision channel

25 Figure 6.25. A comparison between hard and soft decision decoding of the triple repetition code (n=3), and uncoded transmission

26 Figure 6.26. Hard decision decoding of example of Section 16.3

27 Figure 6.27. Trellis of the convolutional encoder of Figure 6.3 with output values in polar format

28 Figure 6.28. Soft decision decoding to determine the survivor at time instant on the corresponding trellis

29 Figure 6.29. Soft decision decoding to determine the survivor at time instant on the corresponding trellis

30 Figure 6.30. Soft decision decoding to determine the survivor at time instant on the corresponding trellis

31 Figure 6.31. Soft decision decoding to determine the final survivor on the corresponding trellis

32 Figure 6.32. Punctured convolutional encoder of rate based on a convolutional code of rate

33 Figure 6.33. Trellis for a punctured convolutional code of rate based on a convolutional code of rate

34 Figure 6.34. Trellis for a convolutional code of rate constructed in the traditional way 11/110 00/000 01/001 10/111 11/101 01/010 10/100 11/011 0 01/100 10/010 11/000 01/111 10/001 00/011 00/101 00/110 11/110 00/000 01/001 10/111 S a =00 S b =10 S c =01 S d =11

35 Figure P.6.1. Convolutional encoder, Problem 6.3

36 Figure P.6.2. Convolutional encoder, problem 6.4

37 Figure P.6.3. Convolutional encoder, Problem 6.5

38 Figure P.6.4. Convolutional encoder, Problem 6.6

39 Figure P.6.5. Trellis diagram, problem 6.7

40 Figure P.6.6. Convolutional encoder, Problem 6.8

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