1990年代中期信用衍生信商品開始發展,隨著時代變遷,演化出信用違約交換(Credit Default Swaps, CDS)、擔保債權憑證(Collateralized Debt Obligation, CDO)、合成型擔保債權憑證(Synthetic CDO)等商品,其可以分散風險的特性廣受歡迎,並且成為完備金融市場中重要的一環。在2007年金融海嘯中,信用衍生性商品扮演相當關鍵的角色,所以如何合理定價各類信用衍生性商品就變成相當重要的議題
以往在定價合成型擔保債權憑證時,多採取單因子結構模型來做為報酬函數的主要架構,並假設模型分配為常態分配、t分配、NIG分配等,但單因子結構模型的隱含相關係數具有波動性微笑現象,所以容易造成定價偏誤。
為了解決此問題,本文將引用常態分配假設與NIG分配假設下的隨機風險因子負荷模型(Random Factor Loading Model),觀察隨機風險因子負荷模型是否對於定價偏誤較其他模型有所改善,並且比較各模型在最佳化參數與定價時的效率,藉此歸納出較佳的合成型擔保債權憑證定價模型。 / During the mid-1990s, credit-derivatives began to be popular and evolved into credit default swaps (CDS), collateralized debt obligation (CDO), and synthetic collateralized debt obligation (Synthetic CDO). Because of the feature of risk sharing, credit-derivatives became an important part of financial market and played the key role in the financial crisis of 2007. So how to price credit-derivatives is a very important issue.
When pricing Synthetic CDO, most people use the one-factor coupla model as the structure of reward function, and suppose the distribution of model is Normal distribution, t- distribution or Normal Inverse Gaussian distribution(NIG). But the volatility smile of implied volatility always causes the pricing inaccurate.
For solving the problem, I use the random factor loading model under Normal distribution and NIG distribution in this study to test whether the random factor loading model is better than one-factor coupla model in pricing, and compare the efficience of optimization parameters. In conclusion, I will induct the best model of Synthetic CDO pricing.
Identifer | oai:union.ndltd.org:CHENGCHI/G0100354005 |
Creators | 黃繼緯, Huang, Chi Wei |
Publisher | 國立政治大學 |
Source Sets | National Chengchi University Libraries |
Language | 中文 |
Detected Language | English |
Type | text |
Rights | Copyright © nccu library on behalf of the copyright holders |
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