 Higher order density approximations for solutions to estimating equationsAnthony Almudevar Journal of Multivariate Analysis, 2016, vol. 143, issue C, 424-439 Abstract: General formulae for the intensity function of a point process defined by the solution set of a system of smooth random equations are widely available in the literature, offering a precise characterization of a type of random process arising naturally in many fields. Almost all are modifications or generalizations of an original formula derived by Rice (1945) and share the same relatively simple structure. Related methods have been applied to the evaluation of the density of the solution to multidimensional estimating equations arising in statistical inference (Skovgaard, 1990; Jensen and Wood, 1998; Almudevar et al., 2000). This approach has been able to verify or extend a variety of known approximation methods, but has otherwise not been commonly used in the area of small sample asymptotic theory, despite its potential for the development of approximation methods of considerable generality. This article develops a general order O(1/n) density approximation method for solutions to multidimensional estimating equations which are sums of continuous independent, non-identically distributed random vectors. Two issues in particular which arise in the application of the Rice formula are addressed. Validation of this formula is often technically challenging, so a set of general conditions motivated specifically by the application to estimating equations is developed. In addition, the Rice formula includes a conditional expectation which would be difficult to evaluate for non-Gaussian processes. To address this issue, a general order O(1/n) approximation for expectations conditioned on random sums is derived, which may be directly used in the Rice formula under the hypothesis considered here. The method is demonstrated using the negative exponential regression model, a type of non-canonical generalized linear model. Keywords: Small sample asymptotics; Rice formula; Estimating equations; Generalized linear models (search for similar items in EconPapers) Downloads: (external link) Related works: Export reference: BibTeX RIS (EndNote, ProCite, RefMan) HTML/Text Persistent link: https://EconPapers.repec.org/RePEc:eee:jmvana:v:143:y:2016:i:c:p:424-439 Ordering information: This journal article can be ordered from DOI: 10.1016/j.jmva.2015.09.014 Access Statistics for this article Journal of Multivariate Analysis is currently edited by de Leeuw, J. More articles in Journal of Multivariate Analysis from Elsevier |
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