1. Lecture 71 Today, we are going to talk about: Some bandpass modulation schemes used in DCS for transmitting information over channel M-PAM, M-PSK, M-FSK, M-QAM How to detect the transmitted information at the receiver Coherent detection Non-coherent detection

2. Lecture 72 Block diagram of a DCS Format Source encode Format Source decode Channel encode Pulse modulate Bandpass modulate Channel decode Demod. Sample Detect Channel Digital modulation Digital demodulation

3. 3 Bandpass modulation Bandpass modulation: The process of converting a data signal to a sinusoidal waveform where its amplitude, phase or frequency, or a combination of them, are varied in accordance with the transmitting data. Bandpass signal: where is the baseband pulse shape with energy. We assume here (otherwise will be stated): is a rectangular pulse shape with unit energy. Gray coding is used for mapping bits to symbols. denotes average symbol energy given by

4. Lecture 74 Demodulation and detection Demodulation: The receiver signal is converted to baseband, filtered and sampled. Detection: Sampled values are used for detection using a decision rule such as the ML detection rule. Decision circuits (ML detector)‏

5. Lecture 75 Coherent detection requires carrier phase recovery at the receiver and hence, circuits to perform phase estimation. Sources of carrier-phase mismatch at the receiver: Propagation delay causes carrier-phase offset in the received signal. The oscillators at the receiver which generate the carrier signal, are not usually phased locked to the transmitted carrier.

6. Lecture 76 Bandpass Modulation Schemes One dimensional waveforms Amplitude Shift Keying (ASK)‏ M-ary Pulse Amplitude Modulation (M-PAM)‏ Two dimensional waveforms M-ary Phase Shift Keying (M-PSK)‏ M-ary Quadrature Amplitude Modulation (M-QAM)‏ Multidimensional waveforms M-ary Frequency Shift Keying (M-FSK)

7. Lecture 77 One dimensional modulation, demodulation and detection Amplitude Shift Keying (ASK) modulation: 0 “0”“1” On-off keying (M=2):

8. Lecture 78 One dimensional mod.,… M-ary Pulse Amplitude modulation (M-PAM)‏ 4-PAM: 0 “00”“01”“11”“10”

9. Lecture 79 Coherent detection of M-PAM ML detector (Compare with M-1 thresholds)‏ One dimensional mod.,...–cont’d

10. Lecture 710 Two dimensional modulation, demodulation and detection (M-PSK)‏ M-ary Phase Shift Keying (M-PSK)‏

11. Lecture 711 Two dimensional mod.,… (MPSK)‏ “0”“1” “110” “000” “001” “011” “010” “101” “111” “100” “00” “11”“10” “01” QPSK (M=4)‏ BPSK (M=2)‏ 8PSK (M=8)‏

12. Lecture 712 Two dimensional mod.,…(MPSK)‏ Coherent detection of MPSK ComputeChoose smallest

13. Lecture 713 Two dimensional mod.,… (M-QAM)‏ M-ary Quadrature Amplitude Mod. (M-QAM)‏ พลังงานที่ต่ำที่สุดของจุดสัญญาณ

14. Lecture 714 Two dimensional mod.,… (M-QAM)‏ “0000” “0001” “0011” “0010” 13-3 “1000” “1001” “1011” “1010” “1100” “1101” “1111” “1110” “0100” “0101” “0111” “0110” 1 3 -3 16-QAM

15. Lecture 715 Two dimensional mod.,… (M-QAM)‏ Coherent detection of M-QAM ML detector Parallel-to-serial converter

16. Lecture 716 Multi-dimensional modulation, demodulation & detection M-ary Frequency Shift keying (M-FSK)‏

17. Lecture 717 Multi-dimensional mod.,…(M-FSK)‏ ML detector: Choose the largest element in the observed vector

18. Lecture 718 Non-coherent detection Non-coherent detection: No need for a reference in phase with the received carrier Less complexity compared to coherent detection at the price of higher error rate.

19. Lecture 719 Non-coherent detection … Sub-optimum differentially coherent detector Performance degradation about 3 dB by using sub-optimal detector Decision Delay T

20. Lecture 720 Non-coherent detection … Energy detection Non-coherent detection for orthogonal signals (e.g. M-FSK)‏ Carrier-phase offset causes partial correlation between I and Q branches for each candidate signal. The received energy corresponding to each candidate signal is used for detection.

21. Lecture 721 Non-coherent detection … Non-coherent detection of BFSK Decision stage: + -