Q2. a) x[n]- and h₁ [n] h₂ [n] h[n] Figure 1 Σ ►y[n] A digital system consists of the input signal, x[n], system impulse response, h[n], and the output signal, y[n] as shown in Figure 1. Given h₁ [n] = 28[n] + [n -2] h₂[n] = u[n] + r[n] − 2r[n − 1] + r[n − 2] - u[n- 31.

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Q2. a)
x[n].
and
h₁ [n]
h₂ [n]
h[n]
Figure 1
Σ
►y[n]
A digital system consists of the input signal, x[n], system impulse response, h[n], and
the output signal, y[n] as shown in Figure 1. Given
h₁[n] = 28[n] + 8[n − 2]
h₂[n] = u[n] +r[n] − 2r[n − 1] + r[n − 2] − u[n − 3].
Transcribed Image Text:Q2. a) x[n]. and h₁ [n] h₂ [n] h[n] Figure 1 Σ ►y[n] A digital system consists of the input signal, x[n], system impulse response, h[n], and the output signal, y[n] as shown in Figure 1. Given h₁[n] = 28[n] + 8[n − 2] h₂[n] = u[n] +r[n] − 2r[n − 1] + r[n − 2] − u[n − 3].
=
By assuming that the input signal, x[n] is
convolution
y[n] = x[n] *h[n].
2,0,0,0 compute the discrete
Transcribed Image Text:= By assuming that the input signal, x[n] is convolution y[n] = x[n] *h[n]. 2,0,0,0 compute the discrete
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