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Modeling and Valuation of Energy Structures: Analytics, Econometrics, and Numerics de Daniel Mahoney

Modeling and Valuation of Energy Structures: Analytics, Econometrics, and Numerics: Applied Quantitative Finance

Autor Daniel Mahoney
en Limba Engleză Hardback – 17 noi 2015
Commodity markets present several challenges for quantitative modeling. These include high volatilities, small sample data sets, and physical, operational complexity. In addition, the set of traded products in commodity markets is more limited than in financial or equity markets, making value extraction through trading more difficult. These facts make it very easy for modeling efforts to run into serious problems, as many models are very sensitive to noise and hence can easily fail in practice. Modeling and Valuation of Energy Structures is a comprehensive guide to quantitative and statistical approaches that have been successfully employed in support of trading operations, reflecting the author's 17 years of experience as a front-office 'quant'. The major theme of the book is that simpler is usually better, a message that is drawn out through the reality of incomplete markets, small samples, and informational constraints. The necessary mathematical tools for understanding these issues are thoroughly developed, with many techniques (analytical, econometric, and numerical) collected in a single volume for the first time. A particular emphasis is placed on the central role that the underlying market resolution plays in valuation. Examples are provided to illustrate that robust, approximate valuations are to be preferred to overly ambitious attempts at detailed qualitative modeling.
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Specificații

ISBN-13: 9781137560148
ISBN-10: 1137560142
Pagini: 455
Ilustrații: XVIII, 455 p.
Dimensiuni: 155 x 235 x 31 mm
Greutate: 0.89 kg
Ediția:1st ed. 2016
Editura: Palgrave Macmillan UK
Colecția Palgrave Macmillan
Seria Applied Quantitative Finance

Locul publicării:London, United Kingdom

Cuprins

Dedication Acknowledgments Introduction PART I: APPLICATIONS 1. Synopsis of Energy Markets and Structures 1.1. Challenges of Modeling in Energy Markets 1.2. High Volatilities/Jumps 1.3. Small Samples 1.4. Structural Change 1.5. Physical/Operational Constraints 1.6. Characteristic Structures 1.7. Tolling Arrangements 1.8. Gas Transport 1.9. Gas Storage 1.10. Load Serving 1.11. Prelude to Robust Valuation 2. Data Analysis and Statistical Issues 2.1. Stationary vs. Non-Stationary Processes 2.2. Concepts 2.3. Basic Discrete Time Models: AR and VAR 2.4. Variance Scaling Laws and Volatility Accumulation 2.5. The Role of Fundamentals and Exogenous Drivers 2.6. Time Scales and Robust Estimation 2.7. Jumps and Estimation Issues 2.8. Spot Prices 2.9. Forward Prices 2.10. Demand Side: Temperature 2.11. Supply Side: Heat Rates, Spreads, and Production Structure 2.12. A Recap 3. Valuation, Portfolios, and Optimization 3.1. Optionality, Hedging, and Valuation 3.2. Valuation as a Portfolio Construction Problem 3.3. Black Scholes as a Paradigm 3.4. Static vs. Dynamic Strategies 3.5. More on Dynamic Hedging: Rolling Intrinsic 3.6. Market Resolution and Liquidity 3.7. Hedging Miscellany: Greeks, Hedge Costs and Discounting 3.8. Incomplete Markets and The Minimal Martingale Measure 3.9. Valuation and Dynamic Strategies 3.10. Residual Risk and Portfolio Analysis 3.11. Stochastic Optimization 3.12. Stochastic Dynamic Programming and HJB 3.13. Martingale Duality 3.14. Appendix 3.15. Vega Hedging and Value Drivers 3.16. Value Drivers and Information Conditioning 4. Selected Case Studies 4.1. Storage 4.2. Tolling 4.3. Appendix 4.4. (Monthly) Spread Option Representation of Storage 4.5. Lower Bound Tolling Payoff PART II: TOOLS 5. Analytical Techniques 5.1. Change of Measure Techniques 5.2. Review/Main Ideas 5.3. Dimension Reduction/Computation Facilitation/Estimation Robustness 5.4. Max/Min Options 5.5. Quintessential Option Pricing Formula 5.6. Symmetry Results: Asian Options 5.7. Affine Jump Diffusions/Characteristic Function Methods 5.8. Lévy Processes 5.9. Stochastic Volatility 5.10. Pseudo-Unification: Affine Jump Diffusions 5.11. General Results/Contour Integration 5.12. Specific Examples 5.13. Application to Change of Measure 5.14. Spot and Implied Forward Models 5.15. Fundamental Drivers and Exogeneity 5.16. Minimal Martingale Examples 5.17. Appendix 5.18. More Asian Option Results 5.19. Further Change of Measure Applications 6. Econometric Concepts 6.1. Cointegration and Mean Reversion 6.2. Basic Ideas 6.3. Granger Causality 6.4. VECM 6.5. Connection to Scaling Laws 6.6. Stochastic Filtering 6.7. Basic Concepts 6.8. The Kalman Filter and Its Extensions 6.9. Heston vs. GARCH 6.10. Sampling Distributions 6.11. The Reality of Small Samples 6.12. Wishart Distribution and More General Sampling Distributions 6.13. Resampling and Robustness 6.14. Basic Concepts 6.15. Information Conditioning 6.16. Bootstrapping 6.17. Estimation in Finite Samples 6.18. Basic Concepts 6.19. MLE and QMLE 6.20. GMM, EMM, and Their Offshoots 6.21. A Study of Estimators in Small Samples 6.22. Spectral Methods 6.23. Appendix 6.24. Continuous vs. Discrete Time 6.25. Estimation Issues for Variance Scaling Laws 6.26. High Frequency Scaling 7. Numerical Methods 7.1. Basics of Spread Option Pricing 7.2. Measure Changes 7.3. Approximations 7.4. Conditional Expectation as a Representation of Value 7.5. Interpolation and Basis Function Expansions 7.6. Pearson and Related Approaches 7.7. The Grid Model 7.8. Further Applications of Characteristic Functions 7.9. Quadrature 7.10. Gaussian 7.11. High Dimensions 7.12. Simulation 7.13. Monte Carlo 7.14. Variance Reduction 7.15. Quasi-Monte Carlo 7.16. Stochastic Control and Dynamic Programming 7.17.Hamilton-Bellman-Jacobi Equation 7.18. Dual Approaches 7.19. LSQ 7.20. Duality (Again) 7.21. Complex Variable Techniques for Characteristic Function Applications 7.22. Change of Contour/Change of Measure 7.23. FFT and Other Transform Methods 8. Dependency Modeling 8.1. Dependence and Copulas 8.2. Concepts of Dependence 8.3. Classification 8.4. Dependency: Continuous vs. Discontinuous Processes 8.5. Consistency: Static vs. Dynamic 8.6. Wishart Processes 8.7. Signal and Noise in Portfolio Construction 8.8. Random Matrices 8.9. Principal Components and Related Concepts References

Recenzii

"A very interesting book that offers a concise and rigorous presentation of a wide range of methods analytical, numerical, and econometric and their application to the truly important risk management problems in the energy markets. The book is expertly written, its material remarkably relevant. The book will be beneficial to anyone interested in understanding the use of mathematical methods in the world of
commodities."
-Alexander Eydeland, Managing Director, Morgan Stanley
"Mahoney presents a comprehensive and detailed coverage of techniques used in quantitative analysis of energy markets in a very readable form. This book will prove invaluable to anyone involved in or studying the energy markets."
-Jon Fox, Options Trader, Trafigura
"An essential read for anybody who wants to better understand the analytical challenges involved in modeling commodities markets and how to approach them. After a brief introduction to market structures and products, the book focuses on real world applications and best analytical and numerical practices for how to value and manage the risk around commodities assets and contracts. Written for the intermediate to advanced reader, the book provides a comprehensive, yet concise overview of mathematical and statistical methods required."
-Harald Ullrich, Vice President of Commercial Analytics, Exelon
"Rapid changes in energy markets caused by deregulation and innovation have created a challenging environment for consumers and market participants alike. Dr Mahoney's book provides clear instruction on state-of-the-art modeling and risk management approaches for energy products."
-Steven B. Perfect, Associate Professor of Finance, Florida State University

Notă biografică

Dan Mahoney has over 17 years of experience as an energy quant in support of trading, structuring, and origination. He has extensive experience in mathematical and financial modeling with an emphasis on the valuation of volatility-related structures. He has held positions at Mirant, FPL, Sempra, Societe Generale, Trafigura, Swiss Re, and Citigroup, where he has been responsible for model development and infrastructure. His background covers a wide range of deals, both physical and financial, including tolling, full requirements, gas storage, and transport. He holds degrees from Caltech and MIT, US.