多變量偏態分配之投資組合：台灣上市之中國槓桿ETF研究_

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題名：	多變量偏態分配之投資組合：台灣上市之中國槓桿ETF研究
作者：	賴曉萍
作者(外文)：	Hsiao-Ping Lai
校院名稱：	淡江大學
系所名稱：	財務金融學系博士班
指導教授：	李命志教授
學位類別：	博士
出版日期：	2019
主題關鍵詞：	槓桿型ETF；反向型ETF；多變量；偏態T分配；Leveraged ETF；Inversed ETF；Multivariate GARCH；Skew-T
原始連結：	連回原系統網址
相關次數：	被引用次數:期刊(0) 博士論文(0) 專書(0) 專書論文(0) 排除自我引用:0 共同引用:0 點閱:3

全球ETF近10年的交易規模及投資報酬率大幅成長，中國更適時開放滬港通、深港通股票市場，之後，MSCI也積極加入中國成份股，2019年更宣布每季增加成份股比重，可見國際投資機構都看好中國股票市場。本論文將利用多變量GARCH、狹峰、厚尾及偏態T分配的模型，實證2015年以來在台灣上市的跨境滬深300正向2倍及反向1倍槓桿型ETF投資組合及上證50ETF、A50期貨投資組合的避險效益及報酬率。本文以Bauwens and Laurent (2005)所提出之多變量偏態T分配結合多變量GARCH模型，應用於股票收益的投資組合模型，尤其是預測投資組合的風險價值，期以最佳權重分配獲得投資報酬。實證結果顯示多變量GARCH模型融合多變量偏態T分配，確實可捕捉到波動度較大的金融商品，具有顯著的解釋能力，其中現貨ETF與期貨的避險績效最佳，而滬深300槓桿/反向ETF的投資組合報酬相對較高且為正，最後本文融合模擬實務投資方式，每日調整最適投資比重，驗證可獲取的報酬率則更高。

以文找文

In recent years, the scale and transaction volume of global ETFs have grown substantially. After China opened Shanghai-Hong Kong Stock Connect and Shenzhen-Hong Kong Stock Connect, MSCI also joined China''s constituent stocks. In 2019, MSCI also announced the proportion of cost-increasing stocks per quarter. It is clear to see that the international market is optimistic about the Chinese market.
This paper will use the multivariate GARCH skew-T distribution model to observe the portfolio of Yuanta Daily CSI 300 Bull 2X ETF , Yuanta Daily CSI 300 Bear -1X ETF and A50 china index ETF , A50 index futures hedging benefits and return rate. Using Bauwens and Laurent (2005) with the multivariate GARCH model, we can analyse stock portfolios to assess their level of risk and predict their renumeration.
The empirical results show that the multivariate GARCH model integrates multivariate skewed -T distribution, which can capture financial products with large volatility and has significant explanatory power. The spot ETF and futures have the best risk-avoiding performance while the CSI 300 leverage ETFs'' portfolio return is relatively high.
Finally, the study integrates the simulation of practical investment methods, adjusts the proportion of the most suitable capital daily and verifies that the renumeration could be higher.

以文找文

一、中文參考文獻
朱香蕙、張榮顯、林玉森(2014)，評估具厚尾分配風險之避險效果，經濟研究，第50卷第2期，頁141-173。
江文強(1997)，股價指數期貨避險效果之研究，交通大學管理科學研究所碩士論文。
何庠穎(2016)，台灣槓桿型及反向型ETF交易策略之績效探討，淡江大學企業管理學系研究所碩士論文。
余尚武、賴昌作(2001)，股價指數期貨之避險比率與避險效益，管理研究學報，頁1-31。
李存修、徐慧釗(2018)，槓桿型與反向型ETF是否影響其標竿指數之期貨市場？──SGX之A50股指期貨之實證，期貨與選擇權學刊，第11卷第2期，頁P1–39。
李沃牆、柯中偉(2011)，外匯投資組合之風險值評估—分量迴歸的應用，中原企管評論，第9卷第1期，頁97-116。
李命志、洪瑞成、劉洪鈞(2007)，厚尾GARCH模型之波動性預測能力比較，輔仁管理評論，第14卷第2期，頁47-72。
沈育展、洪瑞成、邱建良、李命志(2004)，日經225指數期貨之避險績效與最適避險策略之探討，輔仁管理評論，第11卷第1期，頁153-180。
林義祥(1998)，基金避險與台股指數期貨—比較各計量模型之避險績效，淡江大學金融研究所碩士論文。
邱建良、魏志良、吳佩珊、邱哲修(2004)，TAIFEX 與MSCI 台股指數期貨與現貨直接避險策略之研究，商管科技季刊，第5卷第2期，頁169-184。
劉洪鈞、李彥賢、洪瑞成(2008)，厚尾分配之風險值估計－以股價指數為例，中原企管評論，第6卷第1期，頁P75-97
叢宏文(1998)，日經股價指數期貨避險效果之實證研究─GARCH 模型之應用，證券暨期貨管理，第16卷第7期，頁1-23。
魏志良(2001)，國際股價指數期貨與現貨直接避險策略之研究，淡江大學財務金融學系研究所碩士論文。
二、英文參考文獻
Avellaneda, M. and Zhang, S.J., (2010), Path-Dependence of Leveraged ETF Returns, SIAM Journal on Financial Mathematics, Vol.1(1), PP.586-603.
Azzalini, A. and Dalla Valle, A., (1996), The Multivariate Skew-Normal Distribution, Biometrika, Vol.8, 715–726.
Baillie, R. T. and Myers, R. J., (1991), Bivariate GARCH Estimation of the Optimal Commodity Futures Hedge, Journal of Applied Econometrics, Vol.6, PP.109-124.
Bansal, Vipul K. and Marshall, J. F., (2015), A Tracking Error Approach to Leveraged ETFs: Are They Really That Bad? Global Finance Journal, Vol.26 issue C, PP.47-63.
Bauwens, L. and Laurent, S., (2005), A New Class of Multivariate Skew Densities, With Application to Generalized Autoregressive Conditional Heteroscedasticity Models, Journal of Business and Economic Statistics, Vol.23(3), PP.346-354.
Blattberg, R. C. and Gonedes, N. J., (1974), A Comparison of the Stable and Student Distributions as Statistical Models for Stock Prices, The Journal of Business, Vol.47(2), PP.244-280.
Bollerslev, T., (1986), Generalized Autoregressive Conditional Heteroskedasticity, Journal of Econometrics, Vol.31, PP.307-327.
Branco, M. D. and Dey, D. K., (2001), A General Class of Multivariate Skew Elliptical Distributions, Journal of Multivariate Analysis, Vol.79, PP.99–113.
Broda, S. A., (2012), The Expected Shortfall of Quadratic Portfolios with Heavy-Tailed Risk Factors, Mathematical Finance, Vol.22(4), PP.710-728.
Campbell, R., Huisman, R. and Koedijk, K., (2001), Optimal Portfolio Selection in a Value-at-Risk Framework, Journal of Banking & Finance, Vol.25(9), PP.1789-1804.
Cecchetti, S. G., Cumby, R. E. and Figlewski, S., (1988), Estimation of the Optimal Futures Hedge, Review of Economics and Statistics, Vol.70, PP.623-630.
Charupat, N. and Miu, P., (2011), The Pricing and Performance of Leveraged Exchange-Traded Funds, Journal of Banking and Finance, Vol.35(4), PP.966-977.
Christopherson, J. A., Ferson, W. E. and Glassman, D. A., (1998), Conditioning Managers Alphas on Economic Information: Another Look at the Persistence of Performance, Review of Financial Studies, Vol.11, PP.111-142.
Duffie, D. and Pan, J., (1997), An Overview of Value at Risk, Journal of Derivatives, PP.7-49.
Dulaney, T., Husson, T. and McCann, C. J., (2012), Leveraged, Inverse, and Futures-Based ETFs, PIABA Bar Journal, Vol 19(1).
Dunkley, E., (2009), ETF Securities Unveils Double Leveraged Funds, Professional Pensions, Vol.13.
Ederington, L., (1979), The Hedging Performance of the New Futures Markets, Journal of Finance, Vol.34, PP.157-170.
Engle, R. F., (1982), Autoregressive Conditional Heteroskedasticity with Estimates of the Variance of United Kingdom Inflation, Econometrica, Vol.50(4), PP.987-1007.
Evans, J. L. and Archer, S. H., (1968), Diversification and the Reduction of Dispersion: An Empirical Analysis, Journal of Finance Vol.23, PP.761-767.
Fama, E. F., (1965), The Behavior of Stock Market Prices, Journal of Business, Vol.38, PP.34-105.
Fama, E. F., (1970), Efficient Capital Markets: A Review of Theory and Empirical Work, Journal of Finance, Vol.25, PP.383-417.
Fama, E. F., (1991), Efficient Capital Markets II, Journal of Finance, Vol.46, PP.1575-1618.
Fama, E. F., (1998), Market Efficiency, Long-term Returns, and Behavioral Finance, Journal of Financial Economics, Vol.49, PP.283-306.
Fernández, C. and Steel, M. F. J., (1998), On Bayesian Modeling of Fat Tails and Skewness, Journal of the American Statistical Association, Vol.93, PP.359-371.
Ferson, W. E. and Schadt, Ｒ. W., (1996), Measuring Fund Strategy and Performance in Changing Economic Conditions, The Journal of Finance, Vol.51(2), PP.425-461.
Figlewski, S., (1984), Hedging Performance and Basis Risk in Stock Index Futures, Journal of Finance, Vol.39(3), PP.657-669.
Gagnon, L. and Lypny, G., (1997), The Benefits of Dynamically Hedging the Toronto 35 Stock Index, Canadian Journal of Administrative Sciences, Vol.14(1), PP.69-78.
Giannetti, A., (2017), The Dynamics of Leveraged ETFs Returns: A Panel Data Study Quantitative Finance, Vol.17 Issue 5, PP.745-761.
Giot, PP.and Laurent, S., (2003), Value-at-Risk for Long and Short Trading Positions, Journal of Applied Econometrics, Vol.18, PP.641-664.
Glasserman, P., Heidelberger, P. and Shahabuddin, P., (2002), Portfolio Value-at-Risk with Heavy-Tailed Risk Factors, Mathematical Finance, Vol.12(3), PP.239-269.
Gray, R. W. and Rutledge, D. J. S., (1971), The Economics of Commodity Futures Markets: A Survey, Review of Marketing Agricultural Economics, Vol.39, PP.57-108.
Harris, R. D. F. and Shen, J., (2006), Hedging and Value at Risk, The Journal of Futures Markets, Vol.26(4), PP.369-390.
Hill, J. and Foster, G. (2009), Understanding Returns of Leveraged and Inverse Funds, Journal of Indices, Vol.12(5), PP.40-58.
Holzhauer, H., (2010), Three Essays in Investments: Financial Risk Tolerance and Leveraged and Inverse Exchange Traded Funds (Order No. 3409024), Available from ProQuest Dissertations & Theses A&I. (613402923).
Huang, Y. C. and Lin, B. J., (2004), Value-at-Risk Analysis for Taiwan Stock Index Futures: Fat Tails and Conditional Asymmetries in Return Innovations, Review of Quantitative Finance and Accounting, Vol.22, PP.79-95.
Huisman, R., Koedijk, K. G. and Pownall, R. A. J., (1998), VaR-x: Fat Tails in Financial Risk Management, Journal of Risk, Vol.1(1), PP.47-61.
Jansen, D. W. amd de Vries, C. G., (1991), On the Frequency of Large Stock Returns: Putting Booms and Busts into Perspectives, Review of Economics and Statistics, Vol.73, PP.18-24.
Johnson, L., (1960), The Theory of Hedging and Speculation in Commodity Futures, Review of Economic Studies, Vol.27, PP.139-151.
Kearns, P. and Pagan, A., (1997), Estimating the Density Tail Index for Financial Time Series, The Review of Economics and Statistics, Vol.79(2), PP.171-175.
Koutmos, G. and Pericli, A., (1999), Hedging GNMA Mortgage-Backed Securities with T-Note Futures: Dynamic versus Static Hedging, real Estate Economics, Vol.27(2), PP.335-363.
Kroner, F. K. and Sultan, J., (1993), Time-Varying Distributions and Dynamic Hedging with Foreign Currency Futures, Journal of Financial and Quantitative Analysis, Vol.28(4), PP.535-551.
Leung, T. and Santoli, M., (2012), Leveraged Exchange-Traded Funds: Admissible Leverage and Risk Horizon, Journal of Investment Strategies, Vol.2(1), PP.39-61.
Lien, D. and Tse, Y. K., (1999), Fractional Cointegration and Futures Hedging, Journal of Futures Markets, Vol.19(4), PP.457-474.
Lien, D. and Tse, Y. K., (2000), Hedging downside risk with futures contracts, Applied Financial Economics, Vol.10, PP.163-170.
Lintner, J., (1965), Security Pricing Risk, and Maximal Gains From Diversification, Journal of Finance, Vol.30, PP.587-615.
Lo, A. W. and MacKinlay, A. C., (1988), Stock Market Prices Do Not Follow Random Walks: Evidence from a Simple Specification Test, The Review of Financial Studies, Vol.1(1), PP.41-66.
Loretan, M. and Phillips, PP.C. B., (1994), Testing the Covariance Stationarity of Heavy-Tailed Time Series, Journal of Empirical Finance, Vol.1, PP.211-248.
Lu, L., Wang, J. and Zhang, G., (2012), Long Term Performance of Leveraged ETFs, Financial Services Review, Vol.21(1), PP.63-80.
Mackintosh, P., (2008), Double Trouble, ETF and Indexing, Institutional Investors Journals Investment Guides, Vol.1, PP.25-31.
Mandelbrot, B., (1963), New method in statistical Economics, Journal of Political Economy, Vol.71, PP.421-4406
Markowitz, H. M., (1952), Portfolio Selection, Journal of Finance, Vol.7, PP.77-91.
Matt, H., (2009), How Long Can You Hold Leveraged ETFs? , Journal of Indexes , Vol.12(2), PP.36-41.
Mauleón, I. and Perote, J., (1999), Estimation of Multivariate Densities with Financial Data: the Performance of the Multivariate Edgeworth-Sargan Density, Proceedings of the 12th Australian Finance and Banking Conference, Sidney.
McNeil, A. J. and Frey, R., (2000), Estimation of Tail-Related Risk Measures for Heteroscedastic Financial Time Series: An Extreme Value Approach, Journal of Empirical Finance, Vol.7(3-4), PP.271-300.
Miffre, J., (2004), Conditional OLS Minimum Variance Hedge Ratios, Journal of Futures Markets, Vol.24(10), PP.945-964.
Mossin, J., (1966), Equilibrium in a Capital Asset Market, Econometrica: Journal of the Econometric Society, Vol.34(4), PP.768-783.
Mulvey, J., Nadbielny, T. and Kim, W. C., (2013), Levered Exchange-Traded Products: Theory and Practice, Journal of Financial Perspectives, Vol.1(2), PP.105-118.
Murphy, R. and Wright, C., (2010), An Empirical Investigation of Commodity-Based Leveraged ETFs. Journal of Index Investing, Vol.1(3), PP.14-23.
Myers, R. J., (1991), Estimating Time-Varying Optimal Hedge Ratios on Futures Markets, Journal of Futures Markets, Vol.11, PP.39-53.
Myers, R. J. and Thompson, S. R., (1989), Generalized Optimal Hedge Ratio Estimation, American Journal of Agricultural Economics, Vol.71, PP.858-868.
Politis, N. D., (2004), A Heavy-Tailed Distribution for ARCH Residuals with Application to Volatility Prediction, Annals of Economics and Finance, Vol.5, PP.283-298.
Praetz, P. D., (1972), The Distribution of Share Price Changes, The Journal of Business, Vol.45(1), PP.49-55.
Richardson, M. and Smith, T., (1993), A Test for Multivariate Normality in Stock Returns, The Journal of Business, Vol.66(2), PP.295-321.
Rollenhagen, K. J., (2009), Pitfalls and Potential: An Attempt to Demystify Leveraged and Inverse Exchange-Traded Index Funds, ETF and Indexing, Institutional Investors Journals Investment Guides, Vol.1, PP.105-107.
Rompotis, G.G., (2011), A Study on the 3G Exchange Traded Funds: The Case of Short ETFs, Journal of Index Investing, Vol.2(1), PP.25-43.
Rompotis, G.G., (2012), A Survey on Leveraged and Inverse Exchange Traded Funds, Journal of Index Investing, Vol.2(4), PP.84-95.
Rompotis, G. G., (2014), On Leveraged and Inverse Leveraged Exchange Traded Funds, Aestimatio, Vol.9, PP.150-180.
Rompotis, G. G., (2016), Return and Volatility of Emerging Markets Leveraged ETFs, Journal of Asset Management, Vol.17 Issue 3, PP.165-194.
Samorodnitsky, G. and Taqqu, M. S., (1994), Levy Measures of Infinitely Divisible Random Vectors and Slepian Inequalities, The Annals of Probability, Vol.22(4), PP.1930-1956.
Sharpe, W. F., (1964), Capital asset prices: A Theory of Market Equilibrium Under Conditions of Risk, Journal of Finance , Vol.19, PP.425–442.
Shum, P. M., and Kang, J., (2013), Leveraged and Inverse ETF Performance during the Financial Crisis Managerial Finance, Vol.39 Issue 5, PP.476-508.
Stein, J. L., (1961), The Simultaneous Determination of Spot and Futures Prices, The American Economic Review, Vol.51(5), PP.1012–1025.
Treynor, (1961), Toward a Theory of the Market Value of Risky Assets, Unpublished Manuscript.
van den Goorbergh, R. W. J. and Vlaar, P. J. U., (1999), Value-at-Risk Analysis of Stock Returns: Historical Simulation, Variance Techniques or Tail Index Estimation?, De Nederlandsche Bank DNB Staff Reports, Vol.40, PP.1-37.
Vlaar, P.and Palm, F., (1993), The Message in Weekly Exchange Rates in the European Monetary System: Mean Reversion, Conditional Heteroskedasticity, and Jumps, Journal of Business and Economic Statistics, Vol.11, PP.351-60.
William, J. and Mark G., (2013), Forecasting Holding Periods for Leveraged ETFs Using Decay Thresholds: Theory and Applications Article ID 715425, Journal of Financial Studies & Research, 13 pages.
Working, H., (1953), Hedging reconsidered, Journal of Farm Economics, Vol.35, PP.544-561.
Yeh, S. C. and Gannon, G. L., (2000), Comparing Trading Performance of the Constant and Dynamic Hedge Models: A Note, Review of Quantitative Finance & Accounting, Vol.14, PP.155-160.
Zhou, G., (1993), Asset-Pricing Tests under Alternative Distributions, The Journal of Finance, Vol.48(5), PP.1927-1942.

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