[[abstract]]The extent of bias due to measurement errors is an important problem in the context of regression and survival analysis. While research in these areas has been extensive and fruitful, investigations into the effect of measurement errors in capture–recapture models have been very limited. The contributions of this paper are to understand the effects of measurement errors in continuous-time capture–recapture models and to propose new methods to circumvent their impact. We derive asymptotic variance formulas for each method and assess their finite sample properties via simulation studies.[[journaltype]]國外[[incitationindex]]SCI[[booktype]]紙本[[countrycodes]]NL
Recently developed capture-mark-recapture methods allow us to account for capture heterogeneity amon...
Recently developed capture-mark-recapture methods allow us to account for capture heterogeneity amon...
We use the semiparametric additive hazards model to formulate the effects of individual covariates o...
[[abstract]]Summary. We consider estimation problems in capture-recapture models when the covariate...
Since its original derivation, researchers have developed different extensions of the Cormack-Jolly-...
[[abstract]]This paper develops a likelihood-based inference procedure for continuous-time capture-r...
[[abstract]]This article reviews various models for both discrete-time and continuous-time closed ca...
[[abstract]]In a capture–recapture experiment, the number of measurements for individual covariates ...
Predictor variables (or covariates) are frequently used in a capture–recapture analysis when estimat...
Pradel's (1996) temporal symmetry model permitting direct estimation and modelling of population gro...
ii Capture-recapture methods are common in ecological studies when it is impossible to completely en...
For capture-recapture models when covariates are subject to measurement errors and missing data, a s...
A comprehensive understanding of the factors that affect capture probability in a capture-recapture...
Schofield et al. (2018, Biometrics 74, 626–635) presented simple and efficient algorithms for fittin...
We use a class of parametric counting process regression models that are commonly employed in the an...
Recently developed capture-mark-recapture methods allow us to account for capture heterogeneity amon...
Recently developed capture-mark-recapture methods allow us to account for capture heterogeneity amon...
We use the semiparametric additive hazards model to formulate the effects of individual covariates o...
[[abstract]]Summary. We consider estimation problems in capture-recapture models when the covariate...
Since its original derivation, researchers have developed different extensions of the Cormack-Jolly-...
[[abstract]]This paper develops a likelihood-based inference procedure for continuous-time capture-r...
[[abstract]]This article reviews various models for both discrete-time and continuous-time closed ca...
[[abstract]]In a capture–recapture experiment, the number of measurements for individual covariates ...
Predictor variables (or covariates) are frequently used in a capture–recapture analysis when estimat...
Pradel's (1996) temporal symmetry model permitting direct estimation and modelling of population gro...
ii Capture-recapture methods are common in ecological studies when it is impossible to completely en...
For capture-recapture models when covariates are subject to measurement errors and missing data, a s...
A comprehensive understanding of the factors that affect capture probability in a capture-recapture...
Schofield et al. (2018, Biometrics 74, 626–635) presented simple and efficient algorithms for fittin...
We use a class of parametric counting process regression models that are commonly employed in the an...
Recently developed capture-mark-recapture methods allow us to account for capture heterogeneity amon...
Recently developed capture-mark-recapture methods allow us to account for capture heterogeneity amon...
We use the semiparametric additive hazards model to formulate the effects of individual covariates o...