This article concerns a comparison of several tests for testing the hypothesis of a constant intensity against the alternative of an increasing intensity function in a nonhomogeneous Poisson process (NHPP). The study includes the well-known Laplace test statistic, the most powerful test for the shape parameter in a Poisson process with Weibull intensity, the likelihood ratio test against arbitrary NHPP alternatives, two nonparametric tests for trends based on Kendall\u27s tau and Spearman\u27s rho, and a test based on an F statistic. The powers of the tests are determined by Monte Carlo simulation against alternatives that are increasing at an exponential rate, a power rate (Weibull intensity), and a logarithmic rate. Alternatives that are ...
Non-Homogenous Poisson Process (NHPP), also known as the Power Law process (PLP) or the Weibull Proc...
AbstractTests are presented for comparing trends in the rate of occurence of events for two Poisson ...
Abstract: Problem statement: In this study, we construct the estimation for a periodic component of ...
Based on the times of occurrences of a nonhomogeneous Poisson process in a fixed time interval, a ps...
The paper is concerned with testing uniformity versus a monotone density. This problem arises at lea...
We consider the problem of hypothesis testing in the situation when the first hypothesis is simple a...
Procedures for testing trends in the intensity functions of nonhomogeneous Poisson processes are bas...
Tests are presented for comparing trends in the rate of occurence of events for two Poisson series. ...
International audienceWe consider the problem of hypothesis testing in the situation when the first ...
Non-Homogenous Poisson Process (NHPP), also known as the Power Law process (PLP) or the Weibull Proc...
summary:The paper concentrates on modeling the data that can be described by a homogeneous or non-ho...
Ce travail est consacré aux problèmes de testd’hypothèses pour les processus de Poisson nonhomogènes...
In this paper we compare the size distortions and powers for Pearson's [chi]2-statistic, likelihood ...
Motivated by its vast applications, we investigate ways to estimate the intensity of a Poisson proce...
We consider the problem of hypotheses testing in the situation where the first hypothesis is simple ...
Non-Homogenous Poisson Process (NHPP), also known as the Power Law process (PLP) or the Weibull Proc...
AbstractTests are presented for comparing trends in the rate of occurence of events for two Poisson ...
Abstract: Problem statement: In this study, we construct the estimation for a periodic component of ...
Based on the times of occurrences of a nonhomogeneous Poisson process in a fixed time interval, a ps...
The paper is concerned with testing uniformity versus a monotone density. This problem arises at lea...
We consider the problem of hypothesis testing in the situation when the first hypothesis is simple a...
Procedures for testing trends in the intensity functions of nonhomogeneous Poisson processes are bas...
Tests are presented for comparing trends in the rate of occurence of events for two Poisson series. ...
International audienceWe consider the problem of hypothesis testing in the situation when the first ...
Non-Homogenous Poisson Process (NHPP), also known as the Power Law process (PLP) or the Weibull Proc...
summary:The paper concentrates on modeling the data that can be described by a homogeneous or non-ho...
Ce travail est consacré aux problèmes de testd’hypothèses pour les processus de Poisson nonhomogènes...
In this paper we compare the size distortions and powers for Pearson's [chi]2-statistic, likelihood ...
Motivated by its vast applications, we investigate ways to estimate the intensity of a Poisson proce...
We consider the problem of hypotheses testing in the situation where the first hypothesis is simple ...
Non-Homogenous Poisson Process (NHPP), also known as the Power Law process (PLP) or the Weibull Proc...
AbstractTests are presented for comparing trends in the rate of occurence of events for two Poisson ...
Abstract: Problem statement: In this study, we construct the estimation for a periodic component of ...