Asset Allocation. William KinlawЧитать онлайн книгу.
any further by changing the allocation between stocks and bonds. We have maximized our objective function.
By varying the values we assign to
we identify mixes of stocks and bonds for many levels of risk aversion, thus enabling us to construct the entire efficient frontier of stocks and bonds. Figure 2.1 shows the efficient frontier based on the expected returns, standard deviations, and correlations shown in Tables 2.1 and 2.2. All the portfolios along the efficient frontier offer a higher level of expected return for the same level of risk than the portfolios residing below the efficient frontier.FIGURE 2.1 Efficient frontier.
Now let us consider the efficient frontier that is composed of the six asset classes specified in Tables 2.1 and 2.2. In particular, let us now focus on three efficient portfolios that lie along this efficient frontier: one for a conservative investor, one for an investor with moderate risk aversion, and one for an aggressive investor. Table 2.4 shows the three efficient portfolios.
TABLE 2.4 Conservative, Moderate, and Aggressive Efficient Portfolios
Asset Classes | Conservative (%) | Moderate (%) | Aggressive (%) |
---|---|---|---|
US Equities | 15.9 | 25.5 | 36.8 |
Foreign Developed Market Equities | 14.5 | 23.2 | 34.5 |
Emerging Market Equities | 5.6 | 9.1 | 15.8 |
Treasury Bonds | 15.5 | 14.3 | 0.0 |
US Corporate Bonds | 11.4 | 22.0 | 8.9 |
Commodities | 4.0 | 5.9 | 4.0 |
Cash Equivalents | 33.2 | 0.0 | 0.0 |
Expected Return | 6.0 | 7.5 | 9.0 |
Standard Deviation | 6.8 | 10.8 | 15.2 |
The composition of these portfolios should not be surprising. The conservative portfolio has nearly a 1∕3 allocation to cash equivalents.
The moderate portfolio is well diversified and not unlike many institutional portfolios. The aggressive portfolio, by contrast, has more than an 86% allocation to US and foreign equities. It should be comforting to note that we did not impose any constraints in the optimization process to arrive at these portfolios. The process of employing an equilibrium perspective for estimating expected returns yields nicely behaved results.
The Optimal Portfolio
The final step is to select the portfolio that best suits our aversion to risk, which we call the optimal portfolio. As we discussed earlier in this chapter, the theoretical approach to identifying the optimal portfolio is to specify how many units of expected return we are willing to give up to reduce our portfolio's risk by one unit. We would then draw a line with a slope equal to our risk aversion and find the point of tangency of this line with the efficient frontier. The portfolio located at this point of tangency is theoretically optimal because its risk/return trade-off matches our preference for balancing risk and return.
In practice, however, we do not know intuitively how many units of expected return we are willing to sacrifice in order to lower variance by one unit. Therefore, we need to translate combinations of expected return and risk into metrics that are more intuitive. Because continuous returns are approximately normally distributed,9 we can easily estimate the probability that a portfolio with a particular expected return and standard deviation will experience a specific loss over a particular horizon. Alternatively, we can estimate the largest loss a portfolio might experience given a particular level of confidence. We call this measure value at risk. We can also rely on the assumption that continuous returns are normally distributed to estimate the likelihood that a portfolio will grow to a chosen value at some future date. Table 2.5 shows the likelihood of loss over a five-year investment horizon for the three efficient portfolios, as well as value at risk measured at a 1% significance level, which means we are 99% confident that the portfolio value will not fall by more than this amount.
TABLE 2.5 Exposure to Loss
Risk statistics for end of five years | |||
---|---|---|---|
Conservative (%) | Moderate (%) | Aggressive (%) | |
Probability of Loss (return below 0%) | 2.5 | 6.7 | 10.8 |
1% Value at Risk | 5.1 | 17.0 | 28.7 |
If exposure to loss were our only consideration, we would choose the conservative portfolio, but by doing so we forgo upside opportunity. One way to assess the upside potential of these portfolios is to estimate the distribution of future wealth associated with investment in each of them.
Table 2.6 shows the probable terminal wealth as a multiple of initial wealth at varying confidence levels 15 years from now. For example, there is only a 5% chance that our nominal wealth would grow to less than 1.4 times initial wealth in 15 years, assuming we invest in the moderate portfolio. And there is a 5% chance (1 – 0.95) that our wealth