Financial Toolbox™ Graphics Example 1
This example plots the efficient frontier of a hypothetical portfolio of three assets. It illustrates how to specify the expected returns, standard deviations, and correlations of a portfolio of assets, how to convert standard deviations and correlations into a covariance matrix, and how to compute and plot the efficient frontier from the returns and covariance matrix. The example also illustrates how to randomly generate a set of portfolio weights, and how to add the random portfolios to an existing plot for comparison with the efficient frontier.
|On this page…|
if ~exist('quadprog') msgbox('The Optimization Toolbox(TM) is required to run this example.','Product dependency') return end
Specify the expected returns, standard deviations, and correlation matrix for a hypothetical 3-asset portfolio.
returns = [0.1 0.15 0.12]; STDs = [0.2 0.25 0.18]; correlations = [ 1 0.3 0.4 0.3 1 0.3 0.4 0.3 1 ]; % Convert to variance-covariance matrix % Convert the standard deviations and correlation covariances = corr2cov(STDs , correlations);
Compute and plot the efficient frontier for 20 portfolios along the frontier.
portopt(returns , covariances , 20)
Randomly generate the asset weights of 1000 portfolios uniformly distributed on the set of portfolios.
weights = exprnd(1,1000,3); total = sum(weights , 2); total = total(:,ones(3,1)); weights = weights./total;
Compute the expected return and risk of each portfolio.
[portRisk , portReturn] = portstats(returns , covariances , weights);
Now plot the returns and risks of each portfolio on top of the existing efficient frontier for comparison.
hold on plot(portRisk , portReturn , '.r') title('Mean-Variance Efficient Frontier and Random Portfolios') hold off