Applied Derivatives


Book Description

Applied Derivatives provides a detailed, yet relatively non-technical, treatment of the conceptual foundations of derivative securities markets' pricing and investment principles. This book draws from the most fundamental concepts of pricing for options, futures, and swaps to provide insight into the potential risks and returns from conventional option investing. Applied Derivatives is supported by the website www.rendleman.com/book which contains course software referenced in the text and additional questions and problems as they become available.




Evaluating Derivatives


Book Description

This title is a comprehensive treatment of algorithmic, or automatic, differentiation. The second edition covers recent developments in applications and theory, including an elegant NP completeness argument and an introduction to scarcity.




Equity Derivatives


Book Description

Written by the quantitative research team of Deutsche Bank, the world leader in innovative equity derivative transactions, this book acquaints readers with leading-edge thinking in modeling and hedging these transactions. Equity Derivatives offers a balanced, integrated presentation of theory and practice in equity derivative markets. It provides a theoretical treatment of each new modeling and hedging concept first, and then demonstrates their practical application. The book covers: the newest and fastest-growing class of derivative instruments, fund derivatives; cutting-edge developments in equity derivative modeling; new developments in correlation modeling and understanding volatility skews; and new Web-based implementation/delivery methods. Marcus Overhaus, PhD, Andrew Ferraris, DPhil, Thomas Knudsen, PhD, Frank Mao, PhD, Ross Milward, Laurent Nguyen-Ngoc, PhD, and Gero Schindlmayr, PhD, are members of the Quantitative Research team of Deutsche Bank's Global Equity Division, which is based in London and headed by Dr. Overhaus.




Higher Order Derivatives


Book Description

The concept of higher order derivatives is useful in many branches of mathematics and its applications. As they are useful in many places, nth order derivatives are often defined directly. Higher Order Derivatives discusses these derivatives, their uses, and the relations among them. It covers higher order generalized derivatives, including the Peano, d.l.V.P., and Abel derivatives; along with the symmetric and unsymmetric Riemann, Cesàro, Borel, LP-, and Laplace derivatives. Although much work has been done on the Peano and de la Vallée Poussin derivatives, there is a large amount of work to be done on the other higher order derivatives as their properties remain often virtually unexplored. This book introduces newcomers interested in the field of higher order derivatives to the present state of knowledge. Basic advanced real analysis is the only required background, and, although the special Denjoy integral has been used, knowledge of the Lebesgue integral should suffice.




Financial Derivatives


Book Description

Publisher Description




Applied Quantitative Finance for Equity Derivatives - Third Edition


Book Description

In its third edition, this book presents the most significant equitya derivatives models used these days. It is not a book around esoteric or cutting-edge models, but rather a book on relatively simple and standard models, viewed from the angle of a practitioner. A few key subjects explained in this book are: cash dividends for European, American, or exotic options; issues of the Dupire local volatility model and possible fixes; finite difference techniques for American options and exotics; Non-parametric regression for American options in Monte-Carlo, randomized simulations; the particle method for stochastic-local-volatility model with quasi-random numbers; numerical methods for the variance and volatility swaps; quadratures for options under stochastic volatility models; VIX options and dividend derivatives; backward/forward representation of exotics.The January 2021 third edition adds significant details around the physical exercise feature, how to imply the Black-Scholes volatility, the projected successive over-relaxation as well as the recent policy iteration method for the pricing of American options (particularly relevant in the case of negative interest rates), the Andersen-Lake algorithm as fast pricing routine for the case of vanilla American options under the Black-Scholes model, random number generation, antithetic variates, the vectorization of the Monte-Carlo simulation, RBF interpolation of implied volatilities, the Cos method for European option under stochastic volatility models, the Vega in stochastic volatility models. The new text also includes important corrections around the pricing of forward starting and knock-in options with finite difference methods.




Commodity Derivatives


Book Description

Commodity Derivatives In the newly revised Second Edition of Commodity Derivatives: Markets and Applications, expert trading educator and author Neil Schofield delivers a comprehensive overview of a wide variety of commodities and derivatives. Beginning with discussions of commodity markets generally before moving on to derivative valuation and risk management, the author then dives into individual commodity markets, like gold, base metals, crude oil, natural gas, electricity, and more. Schofield relies on his extensive experience at Barclays Investment Bank to offer readers detailed examinations of commodity finance and the use of commodities within a wider investment portfolio. The second edition includes discussions of critical new topics like dual curve swap valuation, option valuation within a negative price environment using the Bachelier model, volatility skews, smiles, smirks, term structures for major commodities, and more. You’ll find case studies on corporate failures linked to improper commodity risk management, as well as explorations of issues like the impact of growing interest in electric vehicles on commodity markets. The text of the original edition has been updated and expanded and new example transactions are included to help the reader understand the concepts discussed within. Each chapter follows a uniform structure, with typical demand and supply patterns following a non-technical description of the commodity at issue. Discussions of the physical markets in each commodity and the main exchange-traded and over-the-counter products conclude each chapter. Perfect for commodity and derivatives traders, analysts, and risk managers, the Second Edition of Commodity Derivatives: Markets and Applications will also earn a place in the libraries of students and academics studying finance and the graduate intake in financial institutions. A one-stop resource for the main commodity markets and their associated derivatives Finance professionals seeking a single volume that fully describes the major commodity markets and their derivatives will find everything they need in the latest edition of Commodity Derivatives: Markets and Applications. Former Global Head of Financial Markets Training at Barclays Investment Bank Neil Schofield delivers a rigorous and authoritative reference on a crucial, but often overlooked, subject. Completely revised and greatly expanded, the Second Edition of this essential text offers finance professionals and students coverage on every major class of commodities, including gold, steel, ethanol, crude oil, and more. You’ll also find discussions of derivative valuation, risk management, commodity finance, and the use of commodities within an investment portfolio. Non-technical descriptions of major commodity classes ensure the material is accessible to everyone while still in-depth and rigorous enough to deliver key information on an area central to global finance. Ideal for students and academics in finance, Commodity Derivatives is an indispensable guide for commodity and derivatives traders, analysts, and risk managers who seek a one-volume resource on foundational and advanced topics in commodity markets and their associated derivatives.




The Mathematics of Derivatives Securities with Applications in MATLAB


Book Description

Quantitative Finance is expanding rapidly. One of the aspects of the recent financial crisis is that, given the complexity of financial products, the demand for people with high numeracy skills is likely to grow and this means more recognition will be given to Quantitative Finance in existing and new course structures worldwide. Evidence has suggested that many holders of complex financial securities before the financial crisis did not have in-house experts or rely on a third-party in order to assess the risk exposure of their investments. Therefore, this experience shows the need for better understanding of risk associate with complex financial securities in the future. The Mathematics of Derivative Securities with Applications in MATLAB provides readers with an introduction to probability theory, stochastic calculus and stochastic processes, followed by discussion on the application of that knowledge to solve complex financial problems such as pricing and hedging exotic options, pricing American derivatives, pricing and hedging under stochastic volatility and an introduction to interest rates modelling. The book begins with an overview of MATLAB and the various components that will be used alongside it throughout the textbook. Following this, the first part of the book is an in depth introduction to Probability theory, Stochastic Processes and Ito Calculus and Ito Integral. This is essential to fully understand some of the mathematical concepts used in the following part of the book. The second part focuses on financial engineering and guides the reader through the fundamental theorem of asset pricing using the Black and Scholes Economy and Formula, Options Pricing through European and American style options, summaries of Exotic Options, Stochastic Volatility Models and Interest rate Modelling. Topics covered in this part are explained using MATLAB codes showing how the theoretical models are used practically. Authored from an academic’s perspective, the book discusses complex analytical issues and intricate financial instruments in a way that it is accessible to postgraduate students with or without a previous background in probability theory and finance. It is written to be the ideal primary reference book or a perfect companion to other related works. The book uses clear and detailed mathematical explanation accompanied by examples involving real case scenarios throughout and provides MATLAB codes for a variety of topics.




Hedging Derivatives


Book Description

Valuation and hedging of financial derivatives are intrinsically linked concepts. Choosing appropriate hedging techniques depends on both the type of derivative and assumptions placed on the underlying stochastic process. This volume provides a systematic treatment of hedging in incomplete markets. Mean-variance hedging under the risk-neutral measure is applied in the framework of exponential L(r)vy processes and for derivatives written on defaultable assets. It is discussed how to complete markets based upon stochastic volatility models via trading in both stocks and vanilla options. Exponential utility indifference pricing is explored via a duality with entropy minimization. Backward stochastic differential equations offer an alternative approach and are moreover applied to study markets with trading constraints including basis risk. A range of optimal martingale measures are discussed including the entropy, Esscher and minimal martingale measures. Quasi-symmetry properties of stochastic processes are deployed in the semi-static hedging of barrier options. This book is directed towards both graduate students and researchers in mathematical finance, and will also provide an orientation to applied mathematicians, financial economists and practitioners wishing to explore recent progress in this field."




General Fractional Derivatives


Book Description

General Fractional Derivatives: Theory, Methods and Applications provides knowledge of the special functions with respect to another function, and the integro-differential operators where the integrals are of the convolution type and exist the singular, weakly singular and nonsingular kernels, which exhibit the fractional derivatives, fractional integrals, general fractional derivatives, and general fractional integrals of the constant and variable order without and with respect to another function due to the appearance of the power-law and complex herbivores to figure out the modern developments in theoretical and applied science. Features: Give some new results for fractional calculus of constant and variable orders. Discuss some new definitions for fractional calculus with respect to another function. Provide definitions for general fractional calculus of constant and variable orders. Report new results of general fractional calculus with respect to another function. Propose news special functions with respect to another function and their applications. Present new models for the anomalous relaxation and rheological behaviors. This book serves as a reference book and textbook for scientists and engineers in the fields of mathematics, physics, chemistry and engineering, senior undergraduate and graduate students. Dr. Xiao-Jun Yang is a full professor of Applied Mathematics and Mechanics, at China University of Mining and Technology, China. He is currently an editor of several scientific journals, such as Fractals, Applied Numerical Mathematics, Mathematical Modelling and Analysis, International Journal of Numerical Methods for Heat & Fluid Flow, and Thermal Science.