Accession Number:

ADA275320

Title:

Testing for a Signal with Unknown Location and Scale in a Stationary Gaussian Random Field

Descriptive Note:

Technical rept.

Corporate Author:

STANFORD UNIV CA DEPT OF STATISTICS

Report Date:

1994-01-07

Pagination or Media Count:

40.0

Abstract:

We suppose that our observations can be decomposed into a fixed signal plus random noise, where the noise is modelled as a particular stationary Gaussian random field in N-dimensional Euclidean space. The signal has the form of a known function centered at an unknown location and multiplied by an unknown amplitude, and we are primarily interested in a test to detect such a signal. There are many examples where the signal scale or width is assumed known, and the test is based on maximising a Gaussian random field over all locations in a subset of N-dimensional Euclidean space. The novel feature of this work is that the width of the signal is also unknown and the test is based on mzximising a Gaussian width. Two convergent approaches are used to approximate the null distribution one based on the method of Knowles and Siegmund 1989, which uses a version of Weyls 1939 tube 1993b, which uses the Hadwiger characteristic of excursion sets as introduced by Adler 1981. Finally we compared the power of our method with one based on a fixed but perhaps incorrect signal width.

Subject Categories:

  • Theoretical Mathematics
  • Statistics and Probability

Distribution Statement:

APPROVED FOR PUBLIC RELEASE