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Lévy過程下Stochastic Volatility與Variance Gamma之模型估計與實證分析 / Estimation and Empirical Analysis of Stochastic Volatility Model and Variance Gamma Model under Lévy Processes

本研究以Lévy過程為模型基礎,考慮Merton Jump及跳躍強度服從Hawkes Process的Merton Jump兩種跳躍風險,利用Particle Filter方法及EM演算法估計出模型參數並計算出對數概似值、AIC及BIC。以S&P500指數為實證資料,比較隨機波動度模型、Variance Gamma模型及兩種不同跳躍風險對市場真實價格的配適效果。實證結果顯示,隨機波動度模型其配適效果勝於Variance Gamma模型,且加入跳躍風險後可使模型配適效果提升,尤其在模型中加入跳躍強度服從Hawkes Process的Merton Jump,其配適效果更勝於Merton Jump。整體而言,本研究發現,以S&P500指數為實證資料時,SVHJ模型有較好的配適效果。 / This paper, based on the Lévy process, considers two kinds of jump risk, Merton Jump and the Merton Jump whose jump intensity follows Hawkes Process. We use Particle Filter method and EM Algorithm to estimate the model parameters and calculate the log-likelihood value, AIC and BIC. We collect the S&P500 index for our empirical analysis and then compare the goodness of fit between the stochastic volatility model, the Variance Gamma model and two different jump risks. The empirical results show that the stochastic volatility model is better than the Variance Gamma model, and it is better to consider the jump risk in the model, especially the Merton Jump whose jump intensity follows Hawkes Process. The goodness of fit is better than Merton Jump. Overall, we find SVHJ model has better goodness of fit when S&P500 index was used as the empirical data.

Identiferoai:union.ndltd.org:CHENGCHI/G0104354023
Creators黃國展, Huang, Kuo Chan
Publisher國立政治大學
Source SetsNational Chengchi University Libraries
Language中文
Detected LanguageEnglish
Typetext
RightsCopyright © nccu library on behalf of the copyright holders

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