Polynomial Approximations of Conditional Expectations in Scalar Gaussian Channels

Abstract

We consider a channel Y=X+N where X is a random variable satisfying E[|X|]<∞ and N is an independent standard normal random variable. We show that the minimum mean-square error estimator of X from Y, which is given by the conditional expectation E[X Y], is a polynomial in Y if and only if it is linear or constant; these two cases correspond to X being Gaussian or a constant, respectively. We also prove that the higher-order derivatives of y E[X Y=y] are expressible as multivariate polynomials in the functions y E[ ( X - E[X Y] )k Y = y ] for k∈ N. These expressions yield bounds on the 2-norm of the derivatives of the conditional expectation. These bounds imply that, if X has a compactly-supported density that is even and decreasing on the positive half-line, then the error in approximating the conditional expectation E[X Y] by polynomials in Y of degree at most n decays faster than any polynomial in n.