In a capture–recapture analysis, uncertainty in the parameter estimates is usually ex-pressed by presenting classical Wald-type confidence intervals. This approach involves (1) the assumption that the maximum likelihood estimates are asymptotically normal and (2) numerical computation of the variance-covariance matrix of these estimates. When the sample size is small or when the estimates are on the boundary of their domain, a Wald confidence interval often performs badly. A natural alternative is to use profile-likelihood confidence intervals. In general, these intervals require a greater amount of computation. We propose a new implementation of this approach that is efficient, both in reducing the amount of computation and in coping with ...
In a single capture-recapture problem, two new Wilson methods for interval estimation of population ...
The estimation of population density animal population parameters, such as capture probability, popu...
<p><i>N</i> is the abundance of individuals in the population. Lower and upper limits of 95% confide...
We propose a method to plan the number of occasions of recapture experiments for population size es...
In many ecological research studies, abundance data, which usually contain a large number of zeros, ...
We propose a new model for estimating the size of a population from successive catches taken during ...
Bootstrap techniques yield variance estimates under any model for which parameter estimates can be c...
Normal-based confidence intervals for a parameter of interest are inaccurate when the sampling distr...
Master of ScienceDepartment of StatisticsPaul I. NelsonCapture-Recaputre (CR) experiments stemmed fr...
In many ecological research studies, abundance data are skewed and contain more zeros than might be ...
For discrete parametric models, approximate confidence limits perform poorly from a strict frequenti...
We investigate model Mt,α for abundance estimation in closed-population capture-recapture studies, w...
We propose an Mhotb model for population size estimation in capture-recapture studies. The tb part i...
Capture-recapture studies in epidemiology are frequently undertaken to adjust underlying rates for u...
Model averaging is commonly used to allow for model uncertainty in parameter estimation. In the freq...
In a single capture-recapture problem, two new Wilson methods for interval estimation of population ...
The estimation of population density animal population parameters, such as capture probability, popu...
<p><i>N</i> is the abundance of individuals in the population. Lower and upper limits of 95% confide...
We propose a method to plan the number of occasions of recapture experiments for population size es...
In many ecological research studies, abundance data, which usually contain a large number of zeros, ...
We propose a new model for estimating the size of a population from successive catches taken during ...
Bootstrap techniques yield variance estimates under any model for which parameter estimates can be c...
Normal-based confidence intervals for a parameter of interest are inaccurate when the sampling distr...
Master of ScienceDepartment of StatisticsPaul I. NelsonCapture-Recaputre (CR) experiments stemmed fr...
In many ecological research studies, abundance data are skewed and contain more zeros than might be ...
For discrete parametric models, approximate confidence limits perform poorly from a strict frequenti...
We investigate model Mt,α for abundance estimation in closed-population capture-recapture studies, w...
We propose an Mhotb model for population size estimation in capture-recapture studies. The tb part i...
Capture-recapture studies in epidemiology are frequently undertaken to adjust underlying rates for u...
Model averaging is commonly used to allow for model uncertainty in parameter estimation. In the freq...
In a single capture-recapture problem, two new Wilson methods for interval estimation of population ...
The estimation of population density animal population parameters, such as capture probability, popu...
<p><i>N</i> is the abundance of individuals in the population. Lower and upper limits of 95% confide...