nep-ets 2016-06-09 papers

on Econometric Time Series

Issue of 2016‒06‒09
two papers chosen by
Yong Yin
SUNY at Buffalo

Asymptotic Theory for Beta-t-GARCH By Ryoko Ito
Spatial Autoregressive Conditional Heteroscedasticity Model and Its Application By Takaki Sato; Yasumasa Matsuda

By:	Ryoko Ito
Abstract:	The dynamic conditional score (DCS) models with variants of Student's t innovation are gaining popularity in volatility modeling, and studies have found that they outperform GARCH-type models of comparable specifications. DCS is typically estimated by the method of maximum likelihood, but there is so far limited asymptotic theories for justifying the use of this estimator for non-Gaussian distributions. This paper develops asymptotic theory for Beta-t-GARCH, which is DCS with Student's t innovation and the benchmark volatility model of this class. We establish the necessary and sufficient condition for strict stationarity of the first-order Beta-t-GARCH using one simple moment equation, and show that its MLE is consistent and asymptotically normal under this condition. The results of this paper theoretically justify applying DCS with Student's t innovation to heavy-tailed data with a high degree of kurtosis, and performing standard statistical inference for model selection using the estimator. Since GARCH is Beta-t-GARCH with infinite degrees of freedom, our results imply that Beta-t-GARCH can capture the size of the tail or the degree of kurtosis that is too large for GARCH.
Keywords:	robustness, score, consistency, asymptotic normality.
JEL:	C22 C58
Date:	2016–01–24
URL:	http://d.repec.org/n?u=RePEc:cam:camdae:1607&r=ets

Spatial Autoregressive Conditional Heteroscedasticity Model and Its Application

By:	Takaki Sato; Yasumasa Matsuda
Abstract:	This paper proposes spatial autoregressive conditional heteroscedasticity (S- ARCH) models to estimate spatial volatility in spatial data. S-ARCH model is a spatial extension of time series ARCH model. S-ARCH models specify conditional variances as the variances given the values of surrounding observations in spatial data, which is regarded as a spatial extension of time series ARCH models that spec- ify conditional variances as the variances given the values of past observations. We consider parameter estimation for S-ARCH models by maximum likelihood method and propose test statistics for ARCH effects in spatial data. We demonstrate the empirical properties by simulation studies and real data analysis of land price data in Tokyo.
Date:	2016–04–26
URL:	http://d.repec.org/n?u=RePEc:toh:tergaa:348&r=ets

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