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The density of a quadratic form in a vector uniformly distributed on the n-sphere

The density of a quadratic form in a vector uniformly distributed on the n-sphere
The density of a quadratic form in a vector uniformly distributed on the n-sphere
There are many instances in the statistical literature in which inference is based on a normalized quadratic form in a standard normal vector, normalized by the squared length of that vector. Examples include both test statistics (the Durbin–Watson statistic) and estimators (serial correlation coefficients). Although much studied, no general closed-form expression for the density function of such a statistic is known. This paper gives general formulae for the density in each open interval between the characteristic roots of the matrix involved. Results are given for the case of distinct roots, which need not be assumed positive, and when the roots occur with multiplicities greater than one. Starting from a representation of the density as a surface integral over an (n [minus sign] 2)-dimensional hyperplane, the density is expressed in terms of top-order zonal polynomials involving difference quotients of the characteristic roots of the matrix in the numerator quadratic form.
1-28
Hillier, Grant
3423bd61-c35f-497e-87a3-6a5fca73a2a1
Hillier, Grant
3423bd61-c35f-497e-87a3-6a5fca73a2a1

Hillier, Grant (2001) The density of a quadratic form in a vector uniformly distributed on the n-sphere. Econometric Theory, 17 (1), 1-28. (doi:10.1017/S026646660117101X).

Record type: Article

Abstract

There are many instances in the statistical literature in which inference is based on a normalized quadratic form in a standard normal vector, normalized by the squared length of that vector. Examples include both test statistics (the Durbin–Watson statistic) and estimators (serial correlation coefficients). Although much studied, no general closed-form expression for the density function of such a statistic is known. This paper gives general formulae for the density in each open interval between the characteristic roots of the matrix involved. Results are given for the case of distinct roots, which need not be assumed positive, and when the roots occur with multiplicities greater than one. Starting from a representation of the density as a surface integral over an (n [minus sign] 2)-dimensional hyperplane, the density is expressed in terms of top-order zonal polynomials involving difference quotients of the characteristic roots of the matrix in the numerator quadratic form.

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Published date: 2001
Organisations: Economics

Identifiers

Local EPrints ID: 33410
URI: http://eprints.soton.ac.uk/id/eprint/33410
DOI: doi:10.1017/S026646660117101X
PURE UUID: 5c3105b2-2c9c-4468-ac34-012ee4a680fa
ORCID for Grant Hillier: ORCID iD orcid.org/0000-0003-3261-5766

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Date deposited: 16 May 2006
Last modified: 16 Mar 2024 02:42

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Author: Grant Hillier ORCID iD

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