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Inference. Estimates stationary p.p. {N(t)}, rate p N, observed for 0<t<T First-order.

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Presentation on theme: "Inference. Estimates stationary p.p. {N(t)}, rate p N, observed for 0<t<T First-order."— Presentation transcript:

1 Inference. Estimates stationary p.p. {N(t)}, rate p N, observed for 0<t<T First-order.

2 Asymptotically normal.

3

4 Theorem. Suppose cumulant spectra bounded, then N(T) is asymptotically N(Tp N, 2  Tf 2 (0)). Proof. The normal is determined by its moments

5 Nonstationary case. p N (t)

6 Second-order.

7

8

9 Bivariate p.p.

10 Volkonski and Rozanov (1959); If N T (I), T=1,2,… sequence of point processes with p N T  0 as T   then, under further regularity conditions, sequence with rescaled time, N T (I/p N T ), T=1,2,…tends to a Poisson process. Perhaps I NM T (u) approximately Poisson, rate  Tp NM T (u) Take:  = L/T, L fixed N T (t) spike if M spike in (t,t+dt] and N spike in (t+u,t+u+L/T] rate ~ p NM (u)  /T  0 as T   N T (IT) approx Poisson I NM T (u) ~ N T (IT) approx Poisson, mean  Tp NM (u)

11 Variance stabilizing transfor for Poisson: square root

12 For large mean the Poisson is approx normal

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