Realized matrix-exponential stochastic volatility with asymmetry, long memory and higher-moment spillovers

Manabu Asai; Chia Lin Chang; Michael McAleer

doi:10.1016/j.jeconom.2021.06.008

Realized matrix-exponential stochastic volatility with asymmetry, long memory and higher-moment spillovers

Manabu Asai, Chia Lin Chang^*, Michael McAleer

^*Corresponding author for this work

Econometrics

Research output: Contribution to journal › Article › Academic › peer-review

9 Citations (Scopus)

59 Downloads (Pure)

Abstract

The paper develops a novel realized matrix-exponential stochastic volatility model of multivariate returns and realized covariances that incorporates asymmetry and long memory (hereafter the RMESV-ALM model), and higher-moment spillovers. The matrix exponential transformation guarantees the positive definiteness of the dynamic covariance matrix. We decompose the likelihood function of the RMESV-ALM model into two components: one based on the conventional Kalman filter, and the other evaluated by a Monte Carlo likelihood technique. We consider a two-step quasi-maximum likelihood estimator for maximizing the likelihood function, and examine the finite sample properties of the estimator. The specification enables us to analyze asymmetric and higher-moment spillover effects in the covariance dynamics via news impact curves and impulse response functions. Using high frequency data for three US financial assets, the new model is estimated and evaluated. The forecasting performance of the new model is compared with a novel dynamic realized matrix-exponential conditional covariance model. Our empirical results suggest the RMESV-ALE specification to be superior, and spillover effects are found from returns or volatility to the remaining volatilities.

Original language	English
Pages (from-to)	285-304
Number of pages	20
Journal	Journal of Econometrics
Volume	227
Issue number	1
DOIs	https://doi.org/10.1016/j.jeconom.2021.06.008
Publication status	Published - Mar 2022

Bibliographical note

JEL classification: C22, C32, C58, G32
Funding Information:
The authors are most grateful to Yoshihisa Baba, Karen Lewis, four anonymous referees, and Co-Editor Torben G. Andersen, for very helpful comments and suggestions. The first author acknowledges the financial support of the Japan Ministry of Education, Culture, Sports, Science and Technology , Japan Society for the Promotion of Science , and Australian Academy of Science . The second and third authors are most grateful for the financial support of the Australian Research Council , Ministry of Science and Technology (MOST), Taiwan , and the Japan Society for the Promotion of Science .

Publisher Copyright:
© 2021

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10.1016/j.jeconom.2021.06.008

1-s2.0-S0304407621001809-mainProof, 1.37 MBLicence: Article 25fa Dutch Copyright Act

Cite this

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title = "Realized matrix-exponential stochastic volatility with asymmetry, long memory and higher-moment spillovers",

abstract = "The paper develops a novel realized matrix-exponential stochastic volatility model of multivariate returns and realized covariances that incorporates asymmetry and long memory (hereafter the RMESV-ALM model), and higher-moment spillovers. The matrix exponential transformation guarantees the positive definiteness of the dynamic covariance matrix. We decompose the likelihood function of the RMESV-ALM model into two components: one based on the conventional Kalman filter, and the other evaluated by a Monte Carlo likelihood technique. We consider a two-step quasi-maximum likelihood estimator for maximizing the likelihood function, and examine the finite sample properties of the estimator. The specification enables us to analyze asymmetric and higher-moment spillover effects in the covariance dynamics via news impact curves and impulse response functions. Using high frequency data for three US financial assets, the new model is estimated and evaluated. The forecasting performance of the new model is compared with a novel dynamic realized matrix-exponential conditional covariance model. Our empirical results suggest the RMESV-ALE specification to be superior, and spillover effects are found from returns or volatility to the remaining volatilities.",

author = "Manabu Asai and Chang, \{Chia Lin\} and Michael McAleer",

note = "JEL classification: C22, C32, C58, G32 Funding Information: The authors are most grateful to Yoshihisa Baba, Karen Lewis, four anonymous referees, and Co-Editor Torben G. Andersen, for very helpful comments and suggestions. The first author acknowledges the financial support of the Japan Ministry of Education, Culture, Sports, Science and Technology , Japan Society for the Promotion of Science , and Australian Academy of Science . The second and third authors are most grateful for the financial support of the Australian Research Council , Ministry of Science and Technology (MOST), Taiwan , and the Japan Society for the Promotion of Science . Publisher Copyright: {\textcopyright} 2021",

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AU - Chang, Chia Lin

AU - McAleer, Michael

N1 - JEL classification: C22, C32, C58, G32 Funding Information: The authors are most grateful to Yoshihisa Baba, Karen Lewis, four anonymous referees, and Co-Editor Torben G. Andersen, for very helpful comments and suggestions. The first author acknowledges the financial support of the Japan Ministry of Education, Culture, Sports, Science and Technology , Japan Society for the Promotion of Science , and Australian Academy of Science . The second and third authors are most grateful for the financial support of the Australian Research Council , Ministry of Science and Technology (MOST), Taiwan , and the Japan Society for the Promotion of Science . Publisher Copyright: © 2021

PY - 2022/3

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N2 - The paper develops a novel realized matrix-exponential stochastic volatility model of multivariate returns and realized covariances that incorporates asymmetry and long memory (hereafter the RMESV-ALM model), and higher-moment spillovers. The matrix exponential transformation guarantees the positive definiteness of the dynamic covariance matrix. We decompose the likelihood function of the RMESV-ALM model into two components: one based on the conventional Kalman filter, and the other evaluated by a Monte Carlo likelihood technique. We consider a two-step quasi-maximum likelihood estimator for maximizing the likelihood function, and examine the finite sample properties of the estimator. The specification enables us to analyze asymmetric and higher-moment spillover effects in the covariance dynamics via news impact curves and impulse response functions. Using high frequency data for three US financial assets, the new model is estimated and evaluated. The forecasting performance of the new model is compared with a novel dynamic realized matrix-exponential conditional covariance model. Our empirical results suggest the RMESV-ALE specification to be superior, and spillover effects are found from returns or volatility to the remaining volatilities.

AB - The paper develops a novel realized matrix-exponential stochastic volatility model of multivariate returns and realized covariances that incorporates asymmetry and long memory (hereafter the RMESV-ALM model), and higher-moment spillovers. The matrix exponential transformation guarantees the positive definiteness of the dynamic covariance matrix. We decompose the likelihood function of the RMESV-ALM model into two components: one based on the conventional Kalman filter, and the other evaluated by a Monte Carlo likelihood technique. We consider a two-step quasi-maximum likelihood estimator for maximizing the likelihood function, and examine the finite sample properties of the estimator. The specification enables us to analyze asymmetric and higher-moment spillover effects in the covariance dynamics via news impact curves and impulse response functions. Using high frequency data for three US financial assets, the new model is estimated and evaluated. The forecasting performance of the new model is compared with a novel dynamic realized matrix-exponential conditional covariance model. Our empirical results suggest the RMESV-ALE specification to be superior, and spillover effects are found from returns or volatility to the remaining volatilities.

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Realized matrix-exponential stochastic volatility with asymmetry, long memory and higher-moment spillovers

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