Consider a zero-mean WSS Gaussian random process X (t) with the autocorrelation function given bibliography Rx(t)= 8sinc²(5000t). Find the autocorrelation function, power, and power spectral density of the output process Y(t) when X(t) process is passed through an ideal LPF with bandwidth 2.5 kHz.
Consider a zero-mean WSS Gaussian random process X (t) with the autocorrelation function given bibliography Rx(t)= 8sinc²(5000t). Find the autocorrelation function, power, and power spectral density of the output process Y(t) when X(t) process is passed through an ideal LPF with bandwidth 2.5 kHz.
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:Consider a zero-mean WSS Gaussian random process X (1) with the autocorrelation function given
bibliography
Rx(t) = 8sinc²(5000t).
Find the autocorrelation function, power, and power spectral density of the output process
Y(1) when X(t) process is passed through an ideal LPF with bandwidth 2.5 kHz.
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