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ECE 4331, Fall, 2009

ECE 4331, Fall, 2009. Zhu Han Department of Electrical and Computer Engineering Class 18 Oct. 27 th , 2007. Figure 5.1 Block diagram of a generic digital communication system. Figure 5.2 Additive white Gaussian noise (AWGN) model of a channel.

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ECE 4331, Fall, 2009

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  1. ECE 4331, Fall, 2009 Zhu Han Department of Electrical and Computer Engineering Class 18 Oct. 27th, 2007

  2. Figure 5.1 Block diagram of a generic digital communication system.

  3. Figure 5.2 Additive white Gaussian noise (AWGN) model of a channel.

  4. Figure 5.3 (a) Synthesizer for generating the signal si(t). (b) Analyzer for generating the set of signal vectors si.

  5. Figure 5.4 Illustrating the geometric representation of signals for the case when N 2 and M 3.

  6. Figure 5.5 Vector representations of signals s1(t) and s2(t), providing the background picture for providing the Schwarz inequality.

  7. 5.3 Conversion of the continuous AWGN channel into a vector channel Figure 5.2 Additive white Gaussian noise (AWGN) model of a channel. Figure 5.3 (a) Synthesizer for generating the signal si(t). (b) Analyzer for generating the set of signal vectors si.

  8. Figure 6.46 Signal constellation for (a) M-ary PSK and (b) corresponding M-ary QAM, for M 16.

  9. Figure 5.7 Illustrating the effect of noise perturbation, depicted in (a), on the location of the received signal point, depicted in (b).

  10. Example of samples of matched filter output for some bandpass modulation schemes

  11. Figure 5.8 Illustrating the partitioning of the observation space into decision regions for the case when N 2 and M 4; it is assumed that the M transmitted symbols are equally likely.

  12. Figure 5.10 Detector part of matched filter receiver; the signal transmission decoder is as shown in Fig. 5.9b.

  13. Figure 5.11 A pair of signal constellations for illustrating the principle of rotational invariance. EE 541/451 Fall 2007

  14. Figure 5.12 A pair of signal constellations for illustrating the principle of translational invariance.

  15. Figure 5.13 Illustrating the union bound. (a) Constellation of four message points. (b) Three constellations with a common message point and one other message point retained from the original constellation.

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