Portfolio Selection with Higher Moments

1. Inquire UK Autumn Seminar 22-24 September 2002 Royal Bath Hotel, Bournemouth Portfolio Selection with Higher Moments Campbell R. Harvey Duke University, Durham, NC USA National Bureau of Economic Research, Cambridge, MA USA http://www.duke.edu/~charvey

2. 1. Objectives • The asset allocation setting • What is risk? • Conditional versus unconditional risk • The importance of higher moments • Estimation error • New research frontiers Campbell R. Harvey

3. 2. Modes/Inputs of Asset Allocation • Types of asset allocation • Strategic • Tactical • Type of information • Unconditional • Conditional Campbell R. Harvey

4. 2. Modes/Inputs of Asset Allocation Constant weights Dynamic weights Slow evolving weights Strategic Tactical Conditional Unconditional Campbell R. Harvey

5. 2. Modes/Inputs of Asset Allocation • Conditioning information makes a difference Campbell R. Harvey

6. 3. Performance Depends on Business Cycle Data through June 2002 Campbell R. Harvey

7. 3. Performance Depends on Business Cycle Data through June 2002 Campbell R. Harvey

8. 3. Performance Depends on Business Cycle Data through June 2002 Campbell R. Harvey

9. 3. Performance Depends on Business Cycle Data through June 2002 Campbell R. Harvey

10. 4. Conditioning Information and Portfolio Analysis • Adding conditioning information is like adding extra assets to an optimization Campbell R. Harvey

11. 4. Conditioning Information and Portfolio Analysis Er Traditional fixed weight optimization (contrarian) in 2-dimensional setting Vol Campbell R. Harvey

12. 4. Conditioning Information and Portfolio Analysis Er Add conditioning information and weights change through time. Frontier shifts. Vol Campbell R. Harvey

13. 5. What is Risk? • Traditional models maximize expected returns for some level of volatility • Is volatility a complete measure of risk? Campbell R. Harvey

14. 5. What is Risk? • Much interest in downside risk, asymmetric volatility, semi-variance, extreme value analysis, regime-switching, jump processes, ... Campbell R. Harvey

15. 6. Skewness • ... These are just terms that describe the skewness in returns distributions. • Most asset allocation work operates in two dimensions: mean and variance -- but skew is important for investors. • Examples: Campbell R. Harvey

16. 6. Skewness 1. The $1 lottery ticket. The expected value is $0.45 (hence a -55%) expected return. • Why is price so high? • Lottery delivers positive skew, people like positive skew and are willing to pay a premium Campbell R. Harvey

17. 6. Skewness 2. High implied vol in out of the money OEX put options. • Why is price so high? • Option limits downside (reduces negative skew). • Investors are willing to pay a premium for assets that reduce negative skew Campbell R. Harvey

18. 6. Skewness 2. High implied vol in out of the money S&P index put options. • This example is particularly interesting because the volatility skew is found for the index and for some large capitalization stocks that track the index – not in every option • That is, one can diversify a portfolio of individual stocks – but the market index is harder to hedge. • Hint of systematic risk Campbell R. Harvey

19. 6. Skewness 3. Some stocks that trade with seemingly “too high” P/E multiples • Why is price so high? • Enormous upside potential (some of which is not well understood) • Investors are willing to pay a premium for assets that produce positive skew • [Note: Expected returns could be small or negative!] Campbell R. Harvey

20. 7. Skewness 3. Some stocks that trade with seemingly “too high” P/E multiples • Hence, traditional beta may not be that meaningful. Indeed, the traditional beta may be high and the expected return low if higher moments are important Campbell R. Harvey

21. 7. Skewness Campbell R. Harvey

22. 7. Skewness Campbell R. Harvey

23. 7. Skewness Campbell R. Harvey

24. 7. Skewness Campbell R. Harvey

25. 7. Skewness Campbell R. Harvey

26. 7. Higher Moments & Expected Returns • CAPM with skewness invented in 1973 and 1976 by Rubinstein, Kraus and Litzerberger • Same intuition as usual CAPM: what counts is the systematic (undiversifiable) part of skewness (called coskewness) Campbell R. Harvey

27. 7. Higher Moments & Expected Returns • Covariance is the contribution of the security to the variance of the well diversified portfolio • Coskewness is the contribution of the security to the skewness of the well diversified portfolio Campbell R. Harvey

28. 7. Higher Moments & Expected Returns Data through June 2002 Campbell R. Harvey

29. 7. Higher Moments & Expected Returns Data through June 2002 Campbell R. Harvey

30. 7. Higher Moments & Expected Returns Data through June 2002 Campbell R. Harvey

31. 7. Higher Moments & Expected Returns Data through June 2002 Campbell R. Harvey

32. 8. Factors Related to simple CAPM: Rit – rft = ai + bi[Rmt – rft] + eit 1. SR (systematic risk) is the beta, bi in the simple CAPM equation 2. TR (total risk) is the standard deviation of country return si 3. IR (idiosyncratic risk) is the standard deviation of the residual in simple CAPM, eit Campbell R. Harvey

33. 8. Factors Related to size 4. Log market capitalization Campbell R. Harvey

34. 8. Factors Related to semi-standard deviation: Semi-B =, for all Rt < B 5. Semi-Mean is the semi-standard deviation with B = average returns for the market 6. Semi-rf is the semi-standard deviation with B = U.S. risk free rate 7. Semi-0 is the semi-standard deviation with B = 0 Campbell R. Harvey

35. 8. Factors Related to downside beta 8. Down-biw is the b coefficient from market model using observations when country returns and world returns are simultaneously negative. 9. Down-bw is the b coefficient from market model using observations when world returns negative. Campbell R. Harvey

36. 8. Factors Related to value at risk 10. VaR is a value at risk measure. It is the simple average of returns below the 5th percentile level. Campbell R. Harvey

37. 8. Factors Related to skewness 11. Skew is the unconditional skewness of returns. It is calculated by taking the Mean(ei3) {Standard deviation of (ei)}^3 12. Skew5%: {(return at the 95th percentile – mean return) -(return at 5th percentile level – mean return)} - 1 Campbell R. Harvey

38. 8. Factors Related to coskewness 13. Coskew1 is: (S ei * em2)/T {square root of (S(ei2 )/T)) } * {(S em2)/T)} 14. Coskew2 is: (S ei * em2)/T {standard deviation of (em)}^3 Campbell R. Harvey

39. 8. Factors Related to spread 15. Kurt is the kurtosis of the return distribution Campbell R. Harvey

40. 8. Factors Related to political risk 16. ICRGC is the log of the average monthly International Country Risk Guide’s (ICRG) country risk composite 17. CCR is the log of the average semi-annual country risk rating published by Institutional Investor. 18. ICRGP is the log of the average monthly ICRG political risk ratings. Campbell R. Harvey

41. 8. Factors Related to Fama-French 3-factor model 19. betahml - HML 20. betasmb - SMB Campbell R. Harvey

42. 8. Factors Related to commodity prices and inflation 21. betaoil - Oil Price (Change in Brent index) 22. binfl - Weighted average of G7 inflation using GDP deflator. Campbell R. Harvey

43. 8. Factors Related to FX risk 23. betafx - The trade weighted FX to $ given by the Federal Reserve 24. betafx1- Simple average $ -Euro and $-Yen Campbell R. Harvey

44. 8. Factors Related to Interest Rates 25. bintr - Real interest rate - Weighted average short-term interest rate/Weighted average of inflation 26. bterm - Weighted average difference between long and short rates Campbell R. Harvey

45. 8. Factors Related to Economic Activity 27. betaip - OECD G7 industrial production Campbell R. Harvey

46. 9. Results Campbell R. Harvey

47. 9. Results Campbell R. Harvey

48. 9. Results Campbell R. Harvey

49. 9. Results • Harvey and Siddique (2000, Journal of Finance) “Conditional Skewness in Asset Pricing Tests” find that skewness is able to explain one of the most puzzling anomalies in asset pricing: momentum Campbell R. Harvey

50. 9. Results 12-month momentum Campbell R. Harvey