Physics, 07.03.2020 02:10 brandiwingard
Let the weak signal X be a random variable with mean and variance P, and the observations be Y1 = X + Z1 (Z1 being the strong interference), and Y2 = Z1 + Z2 (Z2 is a measurement noise), where Z1 and Z2 are zero mean with variances N1 and N2, respectively. Assume that X, Z1 and Z2 are uncorrelated. Find the MMSE linear estimate of X given Y1 and Y2 and its MSE. Interpret the results.
Answers: 1
and 
respectively.![Y' =\left[\begin{array}{c}Y_1-\mu\\Y_2\end{array}\right]](/tpl/images/0537/0696/44e7b.png)
![\sum_Y =\left[\begin{array}{cc}P+N1 &N1\\N1 & N1+N2\end{array}\right]](/tpl/images/0537/0696/e0390.png)
![\sum_{ YX}=\left[\begin{array}{c}P\\0\end{array}\right]](/tpl/images/0537/0696/9d02c.png)
![\hat{X}'=\sum_{YX}^T\sum_{Y}^{-1}Y'\\\hat{X}'=\left[\begin{array}{cc}P&0\end{array}\right]\dfrac{1}{P(N_1+N_2)+N_1N_2}\left[\begin{array}{cc} N_1+N_2 &-N_1\\-N_1 &P+N_1\end{array}\right] Y'\\\hat{X}'=\dfrac{P}{P(N_1+N_2)+N_1N_2}\left[\begin{array}{cc} N_1+N_2 &-N_1\end{array}\right]\left[\begin{array}{c}Y_1-\mu\\Y_2\end{array}\right]](/tpl/images/0537/0696/8b2b7.png)
![MSE=\sigma_X^2-\sum_{YX}^T\sum_{Y}^{-1}\sum_{YX}\\MSE=P-\dfrac{P}{P(N_1+N_2)+N_1N_2}\left[\begin{array}{cc} N_1+N_2 &-N_1\end{array}\right]\left[\begin{array}{c}P\\0\end{array}\right]\\MSE=P-\dfrac{P^2(N_1+N_2)}{P(N_1+N_2)+N_1N_2}\\MSE=\dfrac{PN_1N_2}{P(N_1+N_2)+N_1N_2}](/tpl/images/0537/0696/cf9c2.png)
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Let the weak signal X be a random variable with mean and variance P, and the observations be Y1 = X...
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