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Chapter 3 Delineating Efficient Portfolios Jordan Eimer Danielle Ko Raegen Richard Jon Greenwald Goal Examine attributes of combinations of two risky assets Analysis of two or more is very similar This will allow us to delineate the preferred portfolio • THE EFFICIENT FRONTIER!!!! Combination of two risky assets Expected Return Investor must be fully invested Therefore weights add to one Standard deviation Not a simple weighted average • Weights do not, in general add to one • Cross-product terms are involved We next examine co-movement between securities to understand this Case 1-Perfect Positive Correlation (p=+1) C=Colonel Motors S=Separated Edison Here, risk and return of the portfolio are linear combinations of the risk and return of each security Case2-Perfect Negative Correlation (p=-1) This examination yields two straight lines Due to the square root of a negative number This std. deviation is always smaller than p=+1 Risk is smaller when p=-1 It is possible to find two securities with zero risk No Relationship between Returns on the Assets ( = 0) •The expression for return on the portfolio remains the same •The covariance term is eliminated from the standard deviation •Resulting in the following equation for the standard deviation of a 2 asset portfolio Minimum Variance Portfolio The point on the Mean Variance Efficient Frontier that has the lowest variance To find the optimal percentage in each asset, take the derivative of the risk equation with respect to Xc Then set this derivative equal to 0 and solve for Xc Intermediate Risk ( = .5) A more practical example There may be a combination of assets that results in a lower overall variance with a higher expected return when 0 < < 1 Note: Depending on the correlation between the assets, the minimum risk portfolio may only contain one asset 2 Asset Portfolio Conclusions The closer the correlation between the two assets is to -1.0, the greater the diversification benefits The combination of two assets can never have more risk than their individual variances The Shape of the Portfolio Possibilities Curve The Minimum Variance Portfolio Only legitimate shape is a concave curve The Efficient Frontier with No Short Sales All portfolios between global min and max return portfolios The Efficient Frontier with Short Sales No finite upper bound The Efficient Frontier with Riskless Lending and Borrowing All combinations of riskless lending and borrowing lie on a straight line Input Estimation Uncertainty Reliable inputs are crucial to the proper use of mean-variance optimization in the asset allocation decision Assuming stationary expected returns and returns uncorrelated through time, increasing N improves expected return estimate All else equal, given two investments with equal return and variance, prefer investment with more data (less risky) Input Estimation Uncertainty Predicted returns with have mean R and variance σPred2 = σ2 + σ2/T where: σPred2 is the predicted variance series σ2 is the variance of monthly return T is the number of time periods σ2 captures inherent risk σ2/T captures the uncertainty that comes from lack of knowledge about true mean return In Bayesian analysis, σ2 + σ2/T is known as the predictive distribution of returns Uncertainty: predicted variance > historical variance Input Estimation Uncertainty Characteristics of security returns usually change over time. There is a tradeoff between using a longer time frame and having inaccuracies. Most analysts modify their estimates. Choice of time period is complicated when a relatively new asset class is added to the mix. Short Horizon Inputs and Long Horizon Portfolio Choice Important consideration in estimate inputs: Time horizon affects variance In theory, returns are uncorrelated from one period to the next. In reality, some securities have highly correlated returns over time. Treasury bill returns tend to be highly autocorrelated – standard deviation is low over short intervals but increases on a percentage basis as time period increases Example Solving for Xc yields for the minimum variance portfolio: Xc = (σs2 – σcσsρcs) (σc2 + σs2 - 2σcσsρcs) In a portfolio of assets, adding bonds to combination of S&P and international portfolio does not lead to much improvement in the efficient frontier with riskless lending and borrowing.