THE UNIVERSITY OF NEW SOUTH WALES

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THE UNIVERSITY OF NEW SOUTH WALES FINS 5574 FINANCIAL DECISION-MAKING UNDER UNCERTAINTY Instructor Dr. Pascal Nguyen Office: #3071 Email: pascal@unsw.edu.au Consultation hours: Friday 14:00 17:00 Appointments can be taken outside consultation hours Course description Objectives of the course Provide the foundations for analyzing investment and other key financial decisions Introduce fundamental concepts (e.g., risk aversion, marginal utility, risk neutral pricing, diversification, equilibrium pricing, moral hazard, adverse selection, etc.) Present some important analytical tools in finance (e.g., optimization, dynamic programming, stochastic analysis, game theory, etc.) Analyze theoretical implications in asset pricing (e.g., CAPM) and institutional behavior of financial and non-financial organizations (e.g., credit rationing, securities underpricing, managers performance remuneration, etc.) Approach of learning Emphasize the logical steps in developing the concepts and results Insist on the intuition rather than the technical details Pay special attention to the similarities and differences between different results Stress the link between the assumptions and the implications Combine formal lectures with exercises and paper presentations 1

In this respect, the exercises and reading materials have been carefully selected Participants are especially advised to Familiarize themselves with the course contents, Read the indicated articles before attending classes Work out the exercises Position of the course in finance curriculum No prior exposure to finance theory is required However, general understanding of the organization and role of capital markets and financial institutions, and investment management (portfolio management) and corporate financial management (funding) will be useful Basic knowledge of calculus, functional analysis, and probability is assumed This course is not directly concerned with Empirical testing of asset pricing theory (see, advanced asset pricing) Practical investment applications (see, portfolio management) Valuation of specific derivative securities (see, options and futures) Practical financial management (see, advanced corporate finance) Course assessment Home assignment/ Paper presentation 30 Mid Session 30 Final Exam 40 Total 100 Reference Textbooks Huang and Litzenberger, Foundations for Financial Economics, Prentice Hall, 1988 Cochrane, Asset pricing, Princeton University Press, 2000 Merton, Continuous time finance, Blackwell, 1990 Rasmussen, Games and information, Oxford University Press, 1989 2

Course schedule PART I ASSET RISK, ASSET ALLOCATION & ASSET PRICING Week 1. --- Expected Utility Theory Objective: provide a framework for understanding how risk influences investor decisions; explain investors risk taking behavior; in particular, their demand for risky assets The structure of investor preferences Axiomatic foundations of utility Examples of utility functions Measures of risk aversion Certainty equivalence, risk premium Risk aversion and the demand for risky assets Readings: Huang & Litzenberger, chapter 1 Week 2. --- Portfolio theory Objective: solve the optimal asset demand of investors in the (specific) mean variance framework; analyze the set of frontier/efficient portfolios; emphasize the benefits of diversification in reducing risk Risk vs. return: the mean variance framework Characterizing the mean variance investor s portfolio The efficient frontier of risky assets Decomposition of efficient portfolios Readings: Huang & Litzenberger, chapter 3 Week 3. --- CAPM Objective: provide a theoretical foundation for the pricing of risky assets based on the structure of investors demand for risky assets Market equilibrium: definition Market price of risk, decomposition of risk Beta and the security market line (SML) Readings: Huang & Litzenberger, chapter 4 3

Week 4. --- APT Objective: provide an alternative foundation for the pricing of risky assets; does not depend on investors preferences, but requires a factor structure of asset returns Limitations of CAPM One (market) risk factor may not be enough to describe asset returns Linear factor models Identifying the underlying risk factors Readings: Huang & Litzenberger, chapter 3 Week 5. --- Multi-period Portfolio and Asset pricing models Objective: extend the previous analysis and results to a multi-period setting; show how investors structure their demand for risky assets through time; show that the demand function for risky assets is very similar to the one-period case already analyzed Introduction to dynamic programming The indirect utility function, Bellman equation Optimal portfolio strategies Multi-period Equilibrium, ICAPM, Merton (1973) The consumption based CAPM, Breeden (1979) References (optional reading) Robert Merton (1980), Continuous time finance, Blackwell (Chapters 5-6, 15) Robert Merton (1971), Optimum Consumption and Portfolio Rules in a Continuous-Time Model, Journal of Economic Theory, vol. 3, pp. 373-413 Robert Merton (1973), An Intertemporal Capital Asset Pricing Model, Econometrica, vol. 41, pp. 867-87 Douglas Breeden (1979) An intertemporal asset pricing model with stochastic consumption and investment opportunities, Journal of Financial Economics, vol.7, pp. 265-296 Week 6. --- Derivative asset pricing: Arbitrage arguments Objective: show how arbitrage arguments allow derivative asset pricing without the explicit knowledge of investors preferences; because investors preferences have already been factored in the price of the primitive assets; give an introduction to the risk neutral pricing technique Introduction to arbitrage pricing Replication of derivative cash flows Change of probability measure and risk neutral pricing John Cox, Stephen Ross, and Mark Rubinstein (1979) Option Pricing: A Simplified Approach, Journal of Financial Economics, vol. 7, pp. 229-63 4

Richard Rendleman and Brit Bartter (1979) Two-State Option Pricing, Journal of Finance, vol. 34, pp. 1093-1110 Week 7. --- Derivative asset pricing/ Applications Objective: extend the arbitrage arguments to continuous time; show that derivatives like options can be priced without direct knowledge of investors preferences Introduction to stochastic calculus Ito formula, Feynman Kac, Girsanov theorem Fundamental asset pricing equation Risk neutral pricing Fischer Black and Myron Scholes (1973) The Pricing of Options and Corporate Liabilities, Journal of Political Economy, vol. 81, pp. 637-54 Interest rates applications (if time permits; otherwise home assignment) Objective: apply arbitrage arguments to the pricing of interest rates derivatives; provide a theory of the term and risk structure of interest rates; Pricing of zero coupon bonds and interest rate options Introduction to credit risk and credit derivatives Structural models of bankruptcy Vasicek (1977) An equilibrium characterization of the term structure, Journal of Financial Economics, Volume 5, Pages 177-188 Merton (1974) On the Pricing of Corporate Debt: The Risk Structure of Interest Rates, Journal of Finance, vol. 29, pp. 449-70 Week 8. --- Mid-term exam 5

PART II GAME THEORY IN FINANCE Week 9. --- Introduction to Game Theory Objective: analyze situations where the payoffs (welfare) of one player depends not only on his own actions, but also on the actions of other players Modeling strategic interactions Prisoner s dilemma and other stylized games Solution concepts: dominance, backward induction Definition of Nash Equilibrium, Readings: Rasmussen, chapter 1 Week 10. --- Games and information Objective: analyze situations where players have different information; show how the informational asymmetry influences the strategies of players Games with imperfect information Mechanism design, optimal contracts, incentive compatibility The principal agent framework Moral Hazard, Adverse selection, and signaling problems in finance and insurance Readings: Rasmussen, chapter 2 & beginning of chapter 7 Week 11. --- Moral Hazard Objective: analyze the situation where the agent can take some action unobserved by the principal; show how the principal can structure the contract so that the agent will however take an optimal action in the principal s interest Moral Hazard in the principal agent framework Controlling Moral Hazard: Incentive contracts Agency problems in corporate finance Agency cost from ownership/management separation Readings: Rasmussen, chapter 7 Michael Jensen and William Meckling (1976) Theory of the firm: Managerial behavior, agency costs and ownership structure, Journal of Financial Economics, volume 3, pp. 305-360 Ram Ramakrishnan and Anjan Thakor, (1984) The Valuation of Assets under Moral Hazard, Journal of Finance, vol. 39, pp. 229-38 6

Week 12. --- Adverse selection Objective: analyze the situation where the agents have private information unknown to the principal; show how the principal can structure the contracts so that each agent will choose the contract that is intended for his type Readings: Rasmussen, chapter 9 Adverse selection in the job market; in the used car market; in the insurance market: George Akerloff (1970) The Market for 'Lemons': Quality Uncertainty and the Market Mechanism, Quarterly Journal of Economics, vol. 84, pp. 488-500 Michael Rothschild and Joseph Stigliz (1976) Equilibrium in Competitive Insurance Markets: An Essay on the Economics of Imperfect Information, Quarterly Journal of Economics, vol. 90, pp. 630-49 Week 13. --- Signaling Objective: show how the agent can credibly convey his private information to the principal when doing so improves his welfare (utility) Readings: Rasmussen, chapter 11 Signaling with dividend policy Signaling with retained share in the firm Michael Spence (1973) Job Market Signaling, Quarterly Journal of Economics, vol. 87, pp. 355-74 Stephen Ross (1977), The Determination of Financial Structure: The Incentive Signaling Approach, Bell Journal of Economics, vol. 8, pp. 23-40 Hayne Leland and David Pyle (1977) Informational Asymmetries, Financial Structure, and Financial Intermediation, Journal of Finance, vol. 32, pp. 371-87 Sudipto Bhattacharya (1979) Imperfect Information, Dividend Policy, and the Bird in the Hand Fallacy, Bell Journal of Economics, vol. 10, pp. 259-70 Week 14. --- Review Moral Hazard and signaling David Baron (1982) A Model of the Demand for Investment Banking Advising and Distribution Services for New Issues, Journal of Finance, vol. 37, pp. 955-76 7

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