Appendix E
Influence of an Additive White Noise on the Estimation of AR Parameters
Let y(k) be a pth-order autoregressive process disturbed by an additive noise b(k) which is independent of the driving process u(k) i.e.:
In Chapter 2, we saw that the noisy observation z(k) can itself be considered as a pth-order autoregressive process. In fact, we can easily show that:
To understand and analyze the influence of the noise on the estimation of the AR parameters, Kay proposes a comparison between the spectral flatness ξy of the process y(k) and that of the observation z{k), i.e. ξz [1]. For any process x, the spectral flatness is defined as follows:
where Sxx(ω) and Rxx(τ) denote, respectively, the power spectral density and the autocorrelation function of the process.
When x(k) is an autoregressive process, it can be seen as a sequence w(k) filtered by a filter whose transfer function is H(z) = 1/ A(z). Since the poles of H(z) necessarily lie inside the unit circle in the z-plane, the filter with transfer function A(z) satisfies the following criterion4:
This implies that:
However, ...
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