Loading...
|
Please use this identifier to cite or link to this item:
https://nccur.lib.nccu.edu.tw/handle/140.119/54406
|
Title: | 探討合成型抵押擔保債券憑證之評價 Pricing the Synthetic CDOs |
Authors: | 林聖航 |
Contributors: | 劉惠美 林聖航 |
Keywords: | 合成型抵押擔保債權憑證 單因子關聯結構模型 NIG分配 CSN分配 synthetic CDOs one factor copula model NIG distribution CSN distribution |
Date: | 2011 |
Issue Date: | 2012-10-30 10:58:16 (UTC+8) |
Abstract: | 根據以往探討評價合成型抵押擔保債券之文獻研究,最廣為使用的方法應用大樣本一致性資產組合(large homogeneous portfolio portfolio ; LHP)假設之單因子常態關聯結構模型來評價,但會造成合成型抵押擔保債券憑證與市場報價間的差異過大,且會造成相關性微笑曲線現象。由文獻顯示,單因子關聯結構模型若能加入厚尾度或偏斜性能夠改善以上問題,且對於分券評價時也會有較好的效果,像是Kalemanova et al. (2007) 提出應用LHP假設之單因子Normal Inverse Gaussian(NIG)關聯結構模型以及邱嬿燁(2007)提出NIG及Closed Skew Normal(CSN)複合分配之單因子關聯結構模型(MIX模型)在實證分析中得到極佳的評價結果。自2008年起,合成型抵押擔保債券商品結構開始出現變化,而以往評價合成型抵押擔保債券價格時,商品結構皆為同一種型式。本文將利用常態分配、NIG分配、CSN分配以及NIG與CSN複合分配作為不同的單因子關聯結構模型,藉由絕對誤差極小化方法,針對不同商品結構的合成型抵押擔保債券評價,並進行模型比較分析。由最後實證分析結果顯示,單因子NIG(2)關聯結構模型優於其他模型,也證明NIG分配的第二個參數 β 能夠帶來改善的評價效果,此項證明與過去文獻結論有所不同,但 MIX模型則為唯一一個符合LHP假設的模型。 Based on the literature of discussing the approach for pricing synthetic CDOs, the most widely used methods used application of Large Homogeneous Portfolio (LHP) assumption of the one factor Gaussian copula model, however , it fails to fit the prices of synthetic CDOs tranches and leads to the implied correlation smile. The literature shows that one factor copula model adding the heavy-tail or skew can improve the above problem, and also has a good effect for pricing tranches such as Kalemanova et al (2007) proposed the application of LHP assumption of one factor NIG copula model and Qiu Yan Ye (2007) proposed the application of LHP assumption of one factor NIG and CSN copula model. This article found that the structure of synthetic CDOs began to change since 2008. The past of pricing synthetic CDOs, the structure of synthetic CDOs are the same type, so this article will use different one factor copula model for pricing different structure of synthetic CDOs by using the absolute error minimization. This article will observe whether the above model can be applied in the new synthetic CDOs and implement of different type model for comparative analysis. The last empirical analysis shows that one factor NIG (2) copula model is superior to other models, more meeting the actual market demand, also proving the second parameter β of the NIG distribution able to bring about improvements in pricing results. This proving is different for the past literature conclusions. However, the MIX model is the only one in line with the LHP assumptions. |
Reference: | 1. Amato, J.D. and Gyntelberg, J. (March 2005). CDS Index Tranches and The Pricing of Credit Risk Correlations. BIS Quarterly Review. 2. Andersen, L., and Sidenius, J. (2004 winter). “Extensions to the Gaussian Copula: Random Recovery and Random Factor Loadings.” Journal of Credit Risk, Vol. 1, pp. 29-71. 3. Arellano-Valle, R.B., Gómez, H.W. and Quintana, F. A. (2004). “A New Class of Skew-Normal Distributions.” Communications in Statistics-Theory and Methods, Vol. 33, pp.1465-1480. 4. Azzalini, A. (2005). “The Skew-normal Distribution and Related Multivariate Families.” Scandinavian Journal of Statistics, Vol. 32, pp.159-188. 5. Barndorff-Nielsen, O.E. (1997). “Normal Inverse Gaussian Distributions and Stochastic Volatility Modeling.” Scandinavian Journal of Statistics, Vol. 24, pp.1-13. 6. Black, Fischer and John C. Cox, "Valuing Corporate Securities: Some Effects of Bond Indenture Provisions", Journal of Finance, Vol. 31, No. 2, (May 1976), pp. 351-367 7. Burtschell, X., Gregory, J. and Laurent, L.-P. (April 2005). A Comparative Analysis of CDO Pricing Models. Working paper. 8. Dezhong, W. Rachev S.T., Fabozzi F.J. (October 2006). Pricing Tranches of a CDO and a CDS Index: Resent Advances and Future Research. Working paper. 9. Dezhong W., Rachev S.T., Fabozzi F.J. (November 2006). Pricing of Credit Default Index Swap Tranches with One-Factor Heavy-Tailed Copula Models. Working paper. 10. González-Farías, G., Domínguez-Molina, J.A. and Gupta, A.K. (2004). “Additive properties of skew normal random vectors.” Journal of Statistical Planning and Inference, Vol. 126, pp. 521-534. 11. González-Farías, G., Domínguez-Molina, J.A. and Gupta, A.K. (2004). “A multivariate skew normal distribution.” Journal of Multivariate Analysis, Vol. 89, pp.181-190. 12. Hull, J. and White, A. (winter 2004) “Valuation of a CDO and an n-th to Default CDS without Monte Carlo Simulation.” The Journal of Derivatives, Vol. 12, pp. 8-23. 13. Garcia, J., Dwyspelaere, T., Leonard, L. Alderweireld, T. and Van Gestel, T. (January 2005). Comparing BET and Copulas for Cash Flows CDO. Working Paper. 14. Garcia, J., Gielens, G., Leonard, L. and Van Gestel, T. (June 2003). Pricing Baskets Using Gaussian Copula and BET Methodology: A Market Test. Working Paper. 15. Kalemanove, A., Schmid, B., and Werner, R. (spring 2007). “The Normal Inverse Gaussian Distribution for Synthetic CDO pricing.” The Journal of Derivatives, Vol. 14, pp. 80-93. 16. Karlis, D. and Papadimitriou, A. (2004). Inference for the Multivariate Normal Inverse Gaussian Model. Working paper. 17. Karlis. D. (2000). An EM type algorithm for maximum likelihood estimation of the normal–inverse Gaussian distribution. Statistic & Probability Letters , 57, 43-52. 18. Li, D.X. (April 2000). On Default Correlation: A Copula Function Approach. Working Paper. 19. Lüscher, A. (December 2005). Synthetic CDO Pricing Using the Double Normal Inverse Gaussian Copula with Stochastic Factor Loadings. Master’s thesis in Zürich University. 20. McGinty, L., Ahluwaila, R., Watts, M. and Beinstein, E. (2004). Introducing Base Correlation. JP Morgan Credit Derivatives Strategy. 21. McGinty, L., Ahluwaila, R., Watts, M. and Beinstein, E. (2004a). Credit Correlation: A Guide.a JP Morgan Credit Derivatives Strategy. 22. Merton, R. C (1974) . On the Pricing of Corporate Debt: The Risk Structure of Interest Rates, Journal of Finance, 29, pp. 449-470. 23. McGinty, L., R. Ahluwalia, M. Watts, and E. Beinstein (2004). Introducing Base Correlation. JP Morgan Credit Derivatives Strategy. 24. Nelsen, R.B. (2005). An Introduction to Copulas. Springer. Second Edition. 25. D. O’Kane and L. Schloegl., M. (2001). Modeling Credit: Theory and Practice. Quantitative Credit Research, Lehman Brothers. 26. D. O’Kane and L. Schloegl., M. (2004). Base Correlation Explained. Quantitative Credit Research, Lehman Brothers. 27. O.E. Barndor®-Nielsen. (1978). Hyperbolic distributions and distributions on hyperbolae. Scandinavian. Journal of statistics, 5, 151-157. 28. O.E. Barndor®-Nielsen. (1997.) Normal Inverse Gaussian distributions and stochastic volatility modelling. Scandinavian Journal of statistics, 24, 1-13. 29. Willemann, S. (2004). An Evaluation of the Base Correlation Framework for Synthetic CDOs. Working Paper. 30. Torresetti, R., Brigo, D., Pallavicini, A. (November 2006). Implied correlation in CDO tranches: a Paradigm to be handled with care. Working Paper. 31. Vasicek, O. (2002). “Loan Portfolio Value.” Risk, Vol. 12, pp. 160-162. 32. 陳松男 (民98)。固定收益證券與衍生產品 。台北市:新陸書局。 33. 邱嬿燁 (民97) 。探討單因子複合分配關聯結構模型之擔保債權憑證之評價 。國立政治大學統計學系碩士論文,台北市。 |
Description: | 碩士 國立政治大學 統計研究所 99354002 100 |
Source URI: | http://thesis.lib.nccu.edu.tw/record/#G0099354002 |
Data Type: | thesis |
Appears in Collections: | [統計學系] 學位論文
|
Files in This Item:
File |
Size | Format | |
400201.pdf | 4359Kb | Adobe PDF2 | 865 | View/Open |
|
All items in 政大典藏 are protected by copyright, with all rights reserved.
|