Figure 2.1 Graphic representation of a discrete-time signal.
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Transcript of Figure 2.1 Graphic representation of a discrete-time signal.
![Page 1: Figure 2.1 Graphic representation of a discrete-time signal.](https://reader036.fdocuments.in/reader036/viewer/2022081519/56813545550346895d9ca4d2/html5/thumbnails/1.jpg)
Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.1 Graphic representation of a discrete-time signal.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.2 (a) Segment of a continuous-time speech signal xa(t ). (b) Sequence of samples x[n] = xa(nT ) obtained from the signal in part (a) with T = 125 µs.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.3 Some basic sequences. The sequences shown play important roles in the analysis and representation of discrete-time signals and systems.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.4 Example of a sequence to be represented as a sum of scaled, delayed impulses.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.5 cos ω0n for several different values of ω0. As ω0 increases from zero toward π (parts a-d), the sequence oscillates more rapidly. As ω0 increases from π to 2π (parts d-a), the oscillations become slower.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.6 Representation of a discrete-time system, i.e., a transformation that maps an input sequence x[n] into a unique output sequence y[n].
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.7 Sequence values involved in computing a moving average with M1 = 0 and M2 = 5.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.8 Representation of the output of an LTI system as the superposition of responses to individual samples of the input.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.9 Forming the sequence h[n − k]. (a) The sequence h[k] as a function of k. (b) The sequence h[−k] as a function of k. (c) The sequence h[n − k] = h[ − (k − n)] as a function of k for n = 4.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.10 Sequence involved in computing a discrete convolution. (a)–(c) The sequences x[k] and h[n− k] as a function of k for different values of n. (Only nonzero samples are shown.) (d) Corresponding output sequence as a function of n.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.11 (a) Parallel combination of LTI systems. (b) An equivalent system.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.12 (a) Cascade combination of two LTI systems. (b) Equivalent cascade. (c) Single equivalent system.
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.13 Equivalent systems found by using the commutative property of convolution.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.14 An accumulator in cascade with a backward difference. Since the backward difference is the inverse system for the accumulator, the cascade combination is equivalent to the identity system.
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.15 Block diagram of a recursive difference equation representing an accumulator.
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.16 Block diagram of the recursive form of a moving-average system.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.17 Ideal lowpass filter showing (a) periodicity of the frequency response and (b) one period of the periodic frequency response.
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.18 Ideal frequency-selective filters. (a) Highpass filter. (b) Bandstop filter. (c) Bandpass filter. In each case, the frequency response is periodic with period 2π. Only one period is shown.
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.19 (a) Magnitude and (b) phase of the frequency response of the moving-average system for the case M1 = 0 and M2 = 4.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.20 Illustration of a real part of suddenly applied complex exponential input with (a) FIR and (b) IIR.
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Copyright ©2010, ©1999, ©1989 by Pearson Education, Inc.All rights reserved.
Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.21 Convergence of the Fourier transform. The oscillatory behavior at ω = ωc is often called the Gibbs phenomenon.
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Table 2.1 SYMMETRY PROPERTIES OF THE FOURIER TRANSFORM
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure 2.22 Frequency response for a system with impulse response h[n] = anu[n]. (a) Real part. a > 0; a = 0.75 (solid curve) and a = 0.5 (dashed curve). (b) Imaginary part. (c) Magnitude. a > 0; a = 0.75 (solid curve) and a = 0.5 (dashed curve). (d) Phase.
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Table 2.2 FOURIER TRANSFORM THEOREMS
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Table 2.3 FOURIER TRANSFORM PAIRS
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Figure P2.15
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Figure P2.21
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Figure P2.26
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Figure P2.27
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Figure P2.28-1
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Figure P2.28-2
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Figure P2.30
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Figure P2.35-1
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Figure P2.35-2
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Figure P2.37
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Figure P2.38
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Figure P2.41
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Figure P2.43
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Figure P2.44
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Figure P2.45
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Figure P2.48
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Figure P2.49
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Figure P2.54
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Figure P2.55
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Figure P2.56
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Figure P2.63-1
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Figure P2.63-2
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Figure P2.65-1
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Figure P2.65-2
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Figure P2.67-1
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Figure P2.67-2
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Figure P2.72
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Figure P2.73
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Figure P2.74
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Figure P2.75-1
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Figure P2.75-2
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Figure P2.76
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Figure P2.85
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Figure P2.93
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Figure P2.94
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Figure P2.96
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure P2.97
![Page 63: Figure 2.1 Graphic representation of a discrete-time signal.](https://reader036.fdocuments.in/reader036/viewer/2022081519/56813545550346895d9ca4d2/html5/thumbnails/63.jpg)
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Discrete-Time Signal Processing, Third EditionAlan V. Oppenheim • Ronald W. Schafer
Figure P2.98