05596nam 22006974a 450 991083075930332120230721030018.01-119-20926-91-280-85604-197866108560460-470-51272-5(CKB)1000000000357148(EBL)292595(OCoLC)437178643(SSID)ssj0000252714(PQKBManifestationID)12040235(PQKBTitleCode)TC0000252714(PQKBWorkID)10180667(PQKB)10674416(MiAaPQ)EBC292595(EXLCZ)99100000000035714820070312d2007 uy 0engur|n|---|||||txtccrStructured finance[electronic resource] the object oriented approach /Umberto Cherubini, Giovanni Della LungaChichester, England ;Hoboken, NJ John Wiley & Sonsc20071 online resource (300 p.)Wiley finance seriesDescription based upon print version of record.0-470-02638-3 Includes bibliographical references and index.Structured Finance; Contents; 1 Structured Finance: A Primer; 1.1 Introduction; 1.2 Arbitrage-free valuation and replicating portfolios; 1.3 Replicating portfolios for derivatives; 1.3.1 Linear derivatives; 1.3.2 Nonlinear derivatives; 1.4 No-arbitrage and pricing; 1.4.1 Univariate claims; 1.4.2 Multivariate claims; 1.5 The structuring process; 1.5.1 The basic objects; 1.5.2 Risk factors, moments and dimensions; 1.5.3 Risk management; 1.6 A tale of two bonds; 1.6.1 Contingent coupons and repayment plans; 1.6.2 Exposure to the risky asset; 1.6.3 Exposure to volatility; 1.6.4 Hedging1.7 Structured finance and object-oriented programmingReferences and further reading; 2 Object-Oriented Programming; 2.1 Introduction; 2.2 What is OOP (object-oriented programming)?; 2.3 Analysis and design; 2.3.1 A simple example; 2.4 Modelling; 2.4.1 The Unified Modelling Language (UML); 2.4.2 An object-oriented programming language: Java; 2.5 Main ideas about OOP; 2.5.1 Abstraction; 2.5.2 Classes; 2.5.3 Attributes and operations: the Encapsulation principle; 2.5.4 Responsibilities; 2.5.5 Inheritance; 2.5.6 Abstract classes; 2.5.7 Associations; 2.5.8 Message exchanging; 2.5.9 Collections2.5.10 PolymorphismReferences and further reading; 3 Volatility and Correlation; 3.1 Introduction; 3.2 Volatility and correlation: models and measures; 3.2.1 Implied information; 3.2.2 Parametric models; 3.2.3 Realized (cross)moments; 3.3 Implied probability; 3.4 Volatility measures; 3.4.1 Implied volatility; 3.4.2 Parametric volatility models; 3.4.3 Realized volatility; 3.5 Implied correlation; 3.5.1 Forex markets implied correlation; 3.5.2 Equity "average" implied correlation; 3.5.3 Credit implied correlation; 3.6 Historical correlation; 3.6.1 Multivariate GARCH3.6.2 Dynamic correlation model3.7 Copula functions; 3.7.1 Copula functions: the basics; 3.7.2 Copula functions: examples; 3.7.3 Copulas and survival copulas; 3.7.4 Copula dualities; 3.8 Conditional probabilities; 3.9 Non-parametric measures; 3.10 Tail dependence; 3.11 Correlation asymmetry; 3.11.1 Correlation asymmetry: finance; 3.11.2 Correlation asymmetry: econometrics; 3.12 Non-exchangeable copulas; 3.13 Estimation issues; 3.14 Lévy processes; References and further reading; 4 Cash Flow Design; 4.1 Introduction; 4.2 Types of bonds; 4.2.1 Floaters and reverse floaters4.2.2 Convertible bonds4.2.3 Equity-linked notes; 4.2.4 Inflation-linked bonds; 4.2.5 Asset-backed securities; 4.3 Time and scheduler issues; 4.3.1 Payment date conventions; 4.3.2 Day count conventions and accrual factors; 4.4 JScheduler; 4.4.1 Date handling in Java; 4.4.2 Data models; 4.4.3 Design patterns; 4.4.4 The Factory Method pattern; 4.5 Cash flow generator design; 4.5.1 UML's activity diagram; 4.5.2 An important guideline to the data model for derivatives: FpML; 4.5.3 UML's sequence diagram; 4.6 The cleg class; References and further reading; 5 Convertible Bonds; 5.1 Introduction5.2 Object-oriented structuring processStructured Finance: The Object Orientated Approach is aimed at both the finance and IT professionals involved in the structured finance business with the intention of sharing common concepts and language within the industry. The financial community (structurers, pricers and risk managers) view structured products as collections of objects under the so-called replicating portfolio paradigm. The IT community use object oriented programming (OOP) techniques to improve the software updating and maintenance process. For them structured products are collections of objects as well. Despite useWiley finance series.Structured notes (Securities)Derivative securitiesInvestment analysisMathematical modelsFinancial engineeringStructured notes (Securities)Derivative securities.Investment analysisMathematical models.Financial engineering.332.0285117332.602855117Cherubini Umberto118857Della Lunga Giovanni121168MiAaPQMiAaPQMiAaPQBOOK9910830759303321Structured finance3934105UNINA