Interest rates and financial derivatives .- Convex optimization . - Quadratic hedging principles. -Quadratic investment principles. -Utility based investment principles. -Risk measurement principles. -Empirical methods. -Parametric models and their tails. -Multivariate models.
Über den Autor
Henrik Hult is an associate professor at KTH Royal Institute of Technology in Stockholm, Sweden. Filip Lindskog is an associate professor at KTH Royal Institute of Technology in Stockholm, Sweden. Ola Hammarlid, PhD, is the Head of Quantitative Research at E. Öhman J:or Capital AB in Stockholm, Sweden. Carl Johan Rehn, PhD, is in Quantitative Research at E. Öhman J:or Capital AB in Stockholm, Sweden.
Interest rates and financial derivatives .-Convex optimization . -Quadratic hedging principles. -Quadratic investment principles. -Utility based investment principles. -Risk measurement principles. -Empirical methods. -Parametric models and their tails. -Multivariate models.
Investment and risk management problems are fundamental problems for financial institutions and involve both speculative and hedging decisions. A structured approach to these problems naturally leads one to the field of applied mathematics in order to translate subjective probability beliefs and attitudes towards risk and reward into actual decisions.
In Risk and Portfolio Analysis the authors present sound principles and useful methods for making investment and risk management decisions in the presence of hedgeable and non-hedgeable risks using the simplest possible principles, methods, and models that still capture the essential features of the real-world problems. They use rigorous, yet elementary mathematics, avoiding technically advanced approaches which have no clear methodological purpose and are practically irrelevant. The material progresses systematically and topics such as the pricing and hedging of derivative contracts, investment and hedging principles from portfolio theory, and risk measurement and multivariate models from risk management are covered appropriately. The theory is combined with numerous real-world examples that illustrate how the principles, methods, and models can be combined to approach concrete problems and to draw useful conclusions. Exercises are included at the end of the chapters to help reinforce the text and provide insight.
This book will serve advanced undergraduate and graduate students, and practitioners in insurance, finance as well as regulators. Prerequisites include undergraduate level courses in linear algebra, analysis, statistics and probability.
Combines useful practical insights with rigorous yet elementary mathematics
The presentation of the theory goes hand in hand with numerous real-world examples
The books aims to demystify many commonly encountered approaches to risk management and portfolio choice by decomposing them into principles, methods, and models