Calculate the spectral density of model Xt = 0.5Xt−1+wt+0.5wt−1 where wt is the white noise with...

Consider the series xt = −.8xt−2 + wt and yt = 2cos(2πt) + wt, where wt...

Consider the series xt = −.8xt−2 + wt and yt = 2cos(2πt) + wt, where wt ∼ iid N(0,1). Determine each of the following functions: (b) the autocovariance functions γx(s, t) and γy(s, t) (c) the autocorrelation functions ρx(s, t) and ρy(s, t)

A voltage signal is created by adding the output from a white noise generator and from...

A voltage signal is created by adding the output from a white noise generator and from a sinewave generator. The white noise is band limited in the range 30 to 80 Hz and has a root mean square value (rms) of 1.5 V. The sine wave has a frequency of 50 Hz and an amplitude of 1.0 V. The signal is digitized at 200 samples per second and a spectral density is obtained by the Fast Fourier Transfer (FFT) algorithm,...

Given the process x(t) = a + bt + e(t), where e(t) is a white noise...

Given the process x(t) = a + bt + e(t), where e(t) is a white noise process with known variance, show that y(t) = x(t) - x(t-1) is a stationary time series.

A baseband communication system has a distribution channel and power spectra density of white noise ?/2...

A baseband communication system has a distribution channel and power spectra density of white noise ?/2 of 10-8 W/Hz. The signal transmitted has a 5 k? bandwidth. If an RC low-pass filter with a 3 dB bandwidth of 10 kHz is used at the receiving end to limit noise power, determine the output noise power I dont know why answer is 628.3um???

Consider the following difference equation for populations called the nonlinear logistic model ?t+1=?xt(1−xt) (a) Find the...

Consider the following difference equation for populations called the nonlinear logistic model ?t+1=?xt(1−xt) (a) Find the equilibria. Here ?>0 is an unknown parameter (i.e., is a constant). (b) Determine the values of r for which each equilibrium is stable.

Calculate the alloy density, rave, for a 75 wt% Au, 25 wt% Ag alloy known as...

Calculate the alloy density, rave, for a 75 wt% Au, 25 wt% Ag alloy known as �18k Gold�. Report your answer in g/cm3. How does this value compare to a standard rule of mixtures calculation? Would this be an interstitial or substitutional alloy?

Suppose that the daily log return of a security follows the model: rt =0.01+0.2rt-2+et, where e...

Suppose that the daily log return of a security follows the model: rt =0.01+0.2rt-2+et, where e is a white noise series with mean zero and variance 0.02. Compute the lag-1 and lag-2 autocorrelation of rt.

Using R statistical software (a) Generate n = 100 observations from following time series model xt...

Using R statistical software (a) Generate n = 100 observations from following time series model xt =2cos(2πt/4)+ωt, where ωt is i.i.d N(0,1). (b) Apply the moving average to xt and get time series yt, such that yt = (xt + xt−1 + xt−2 + xt−3)/4. [hint: Use filter(x,rep(1/4,4)),sides=1] (c) Plot xt as a line and superimpose yt as a dashed line. (d) Describe the relationship between xt and yt.

1) Consider the MA(2) process, where all the {et} values are independent white noise with variance...

1) Consider the MA(2) process, where all the {et} values are independent white noise with variance  2 e: Yt = et – 0.5 et – 1 – 0.3 et – 2 a) Find cov(Yt, Yt) = var(Yt). b) Find cov(Yt, Yt – 1) and, from this, find the lag-1 autocorrelation corr(Yt, Yt – 1). c) Find cov(Yt, Yt – 2) and, from this, find the lag-2 autocorrelation corr(Yt, Yt – 2). d) Argue that cov(Yt, Yt – k) =...

Suppose that the daily log return of a security follows the model: rt =0.01+0.2rt-2+et, where e...

Suppose that the daily log return of a security follows the model: rt =0.01+0.2rt-2+et, where e is a white noise series with mean zero and variance 0.02. Compute the 1-step and 2-step ahead forecasts of the return series at the forecast origin t=100. What are the associated standard deviations of the forecast errors?