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Introduction to Digital Communication

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Presentation on theme: "Introduction to Digital Communication"— Presentation transcript:

1 Introduction to Digital Communication
Geometric representation of modulation signals Linear modulation BPSK, DPSK; QPSK, offset QPSK, /4 QPSK Constant envelope modulation BFSK, MSK, GMSK Combined linear and constant envelope modulation MPSK QAM MFSK and OFDM

2 Geometric Representation of Modulation Signal
Digital Modulation involves Choosing a particular signal waveform for transmission for a particular symbol or signal For M possible signals, the set of all signal waveforms are: For binary modulation, each bit is mapped to a signal from a set of signal set S that has two signals We can view the elements of S as points in vector space 2

3 Geometric Representation of Modulation Signal
Vector space We can represented the elements of S as linear combination of basis signals. The number of basis signals are the dimension of the vector space. Basis signals are orthogonal to each-other. Each basis is normalized to have unit energy: 3

4 Example Two signal waveforms to be used for transmission
The basis signal Q I Constellation Diagram Dimension = 1 4

5 Constellation Diagram
Properties of Modulation Scheme can be inferred from Constellation Diagram Bandwidth occupied by the modulation increases as the dimension of the modulated signal increases Bandwidth occupied by the modulation decreases as the signal points per dimension increases (getting more dense) Probability of bit error is proportional to the distance between the closest points in the constellation. Bit error decreases as the distance increases (sparse). 5

6 Concept of a constellation diagram

7 Linear Modulation Techniques
Classify digital modulation techniques as: Linear The amplitude of the transmitted signal varies linearly with the modulating digital signal, m(t). They usually do not have constant envelope. More spectral efficient. Poor power efficiency Non-linear 7

8 Comparison of Digital Modulation

9 Modulation Summary Phase Shift Keying is often used, as it provides a highly bandwidth efficient modulation scheme. QPSK, modulation is very robust, but requires some form of linear amplification. OQPSK and p/4-QPSK can be implemented, and reduce the envelope variations of the signal. High level M-ary schemes (such as 64-QAM) are very bandwidth efficient, but more susceptible to noise and require linear amplification. Constant envelope schemes (such as GMSK) can be employed since an efficient, non-linear amplifier can be used. Coherent reception provides better performance than differential, but requires a more complex receiver.

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