Real Options, Ambiguity, Risk and Insurance : World Class University Program in Financial Engineering, Ajou University, Volume Two

Financial engineering has become the focus of widespread media attention as a result of the worldwide financial crisis of recent years. This book is the second in a series dealing with financial engineering from Ajou University in Korea. The main objective of the series is to disseminate recent developments and important issues in financial engineering to graduate students and researchers, and to provide surveys or pedagogical exposition of important published papers in a broad perspective, as well as analyses of important financial news concerning financial engineering research, practices or regulations. Real Options, Ambiguity, Risk and Insurance, comprises 12 chapters and is divided into three parts. In Part I, five chapters deal with real options analysis, which addresses the issue of investment decisions in complex, innovative or risky projects. Part II presents three chapters on ambiguity. The notion of ambiguity is one of the major breakthroughs in the expected utility theory; ambiguity arises as uncertainties cannot be precisely described in the probability space. Part III consists of four chapters devoted to risk and insurance, and covers mutual insurance for non-traded risks, downside risk management, and credit risk in fixed income markets. This volume will be useful to both graduate students and researchers in understanding relatively new areas in economics and finance, as well as challenging aspects of mathematics.

MoreLess

Year of publication:	2013
Authors:	Bensoussan, Alain
Other Persons:	Peng, S (contributor) ; Sung, Jaeyoung (contributor)
Publisher:	Amsterdam : IOS Press
Subject:	Hochschule \| Higher education institution \| Realoptionsansatz \| Real options analysis \| Theorie \| Theory \| Financial Engineering \| Financial engineering \| Risikomodell \| Risk model \| Risiko \| Risk
Description of contents:	Description [zbmath.org]

Extent:	1 online resource (296 pages)
Series:	Studies in Probability, Optimization and Statistics ; v.5
Type of publication:	Book / Working Paper
Language:	English
Notes:	Description based on publisher supplied metadata and other sources. Title Page; Preface; Contents; Part 1. Real Options; Optimal Investment Under Liquidity Constraints; Introduction; Optimal Investment in Perfect Capital Markets; The Benchmark Model; Discussion; Optimal Stopping for a Cash-Constrained Firm; The Model; Value of the Firm with No Growth Option; Value of the Firm with a Growth Option; A Verification Theorem; Solution to Optimal Stopping Problem Fi; Fi as a Super Solution to HJB Equation (3.13); Future Works; Investment in High-Tech Industries: An Example from the LCD Industry; Introduction; The Investment Model with Geometric Brownian Motion Investment in LCD IndustryIndustry; Production Process; Data and Estimations; Industry Analysis; Conclusion; Appendix; Proof of Proposition 1; Proof of Proposition 2; Game Theoretic Real Options and Competition Risk; Introduction; General Set-Up of a Real Option Duopoly; Preemption Games; Markov Perfect Equilibrium; Firm Value and Welfare Implications; Conclusion; Real Options and Risk Aversion; Introduction; Model and Assumptions; Real Options and Investment Timing; The Benchmark Case: Risk Neutrality; Investment Timing and Risk Aversion; Model Implications Risk Aversion and the Option Value to WaitRisk Aversion and Project Value; Probability of Investment; Conclusion; Appendix; A General Result; Proofs; Real Options with Time and Scale Flexibility; Introduction; Flexibility in Time and Scale; Optimal Investment Strategy; Capital Accumulation Rule; Optimal Investment Timing; Specific Examples in Real Options Analysis; Example 1: Linear Revenue; Example 2: Cobb-Douglas Production Function; Example 3: Bounded Production; Conclusion; Appendices; Appendix A; Appendix B; Appendix C; Part 2. Ambiguity; Optimal Stopping Rule Meets Ambiguity IntroductionOptimal Stopping Under Ambiguity; Discrete Time Framework; Finite Time Horizon; Infinite Time Horizon; Continuous Time Framework; Aggregator and Examples; Value Process Under Ambiguity; Infinite Time Horizon; Comparative Analysis; Ambiguity and Optimal Rule; Risk Aversion; Markov Setting; Value function in Ambiguity; Comments and Extensions; Ambiguity and Ambiguity Aversion; Optimal Stopping Under Risk Measures; Conclusion; Appendix A: Optimal Stopping Related to Reflected BSDEs; Finite Time Horizon; Infinite Time Horizon Appendix B: Proofs of Results on the Problem of Optimal StoppingAppendix C: Proof of Results in Extensions; An Overview on the Principal-Agent Problems in Continuous Time; Introduction; Principal-Agent Problems Under Full Information; Principal-Agent Problems with Hidden Actions and Lump-Sum Payment; Principal-Agent Problems with Hidden Actions and Continuous Payment; Optimal Insurance Design Problem Under Knightian Uncertainty; Ambiguity Setting; Pareto-Efficient Insurance Design; Optimal Insurance Design from the Insured's Perspective; Pareto-Optimal Insurance Contract; Conclusion Nonlinear Expectation Theory and Stochastic Calculus Under Knightian Uncertainty
ISBN:	978-1-61499-238-7 ; 978-1-61499-237-0 ; 978-1-61499-237-0
Source:	ECONIS - Online Catalogue of the ZBW

Persistent link: https://www.econbiz.de/10012689922