Analytic Standard Errors for Latent Gaussian Discrete-Valued Multivariate Time Series
Abstract
Unlike their continuous-valued counterparts, there are no universally preferred methodologies for modeling discrete-valued time series.
This is especially problematic in fields such as psychology and education, where repeated-measures data often take the form of count, dichotomous, and ordered categorical variables.
To address the need for flexible methodology for analyzing discrete-valued time series data, a copula-style multivariate model defined through deterministic functions of a latent stationary Gaussian vector series has been proposed.
This model has several promising features, including the ability to accommodate a wide variety of marginal distributions within the same model while also allowing for the most flexible autocorrelation structure possible.
We extend this framework by deriving analytic standard errors to facilitate inference on the latent Gaussian dynamics.
In so doing, we establish the joint asymptotic normality of estimators of the parameters governing the latent Gaussian series and the marginal distributions.
The performance of these analytic standard errors is examined in a simulation study and an empirical application.
이 뉴스, 어떠셨어요?
한 번의 탭으로 반응을 남겨요 · 로그인 불필요