Statistics of Asset Returns

Investment Theory

Lorenzo Naranjo

Fall 2024

The Rate of Return

Real v/s Financial Assets

Investing involves purchasing an asset today and selling it next period.
The asset can be a real asset, like a house, or a financial asset like a stock or a bond.
All assets in the economy are real assets.
Financial assets are claims to parts of real assets.

Dividends

When you purchase an asset today and hold it for one period, you might also be entitled to a dividend.
Many stocks in the U.S. pay dividends quarterly, while bonds pay coupons semi-annually.
Even real assets can pay a dividend.
- For example, if you purchase a house and rent it, you will collect a monthly rent from your tenant.

The Holding Period Return

In order to analyze the performance of your investment, it is useful to think in terms of profitability per dollar invested.
Say you purchase an asset at time 0 for P_{0} and sell it a period later for P_{1}.
If the stock pays dividends, we assume that dividends are paid just before you purchase or sell the asset.
The holding-period return (HPR) from time 0 to time 1 is defined as \text{HPR} = \frac{P_{1} - P_{0} + D_{1}}{P_{0}}.

HPR Decomposition

The HPR can be decomposed as \text{HPR} = \frac{P_{1} - P_{0}}{P_{0}} + \frac{D_{1}}{P_{0}}.
The first term in the previous expression denotes the capital gain and the second term represents the dividend yield.
The total return of investing in the asset depends on how much the price appreciates or depreciates, and the amount of dividends paid during the holding period.

Example 1 Suppose you purchase today an index fund for $100 per share. The fund will pay dividends over a year of $4. If the price per share next year is $110, your HPR amounts to \text{HPR} = \frac{110 - 100 + 4}{100} = 14\%. The total return of 14% consists of 10% in capital gains and 4% of dividend yield.

Returns are Random

In order to ease notation, in the following we denote by r_{i} the HPR of investing in security i.
Since there is considerable uncertainty about the future price and dividends paid by a stock, its HPR is unknown today.
A useful way to think about the uncertainty of r_{i} is to model it as a random variable in certain probability space (\Omega, \operatorname{P}).

Expected Returns and Volatility

The expectation of r_{i} is called the expected return of security i.
The standard deviation of r_{i} is typically called the volatility or standard deviation of returns.
I usually write \begin{aligned} \mu_{i} & = \operatorname{E}(r_{i}), \\ \sigma_{i} & = \sqrt{\operatorname{V}(r_{i})}. \end{aligned}

Example 2 Suppose your expectations regarding a stock price are as follows:

State of the Market	Probability	HPR
Boom	0.35	44.5%
Normal	0.30	14%
Recession	0.35	-16.5%

Using this data, we have that \mu = 14\% and \sigma = 25.52\%.

Apple Monthly Returns

The figure below plots the monthly returns of Apple (AAPL) since the stock was listed in December 1980.

Figure 1: The figure shows the monthly returns of Apple (AAPL) since the stock was listed in December 1980.

Computing Average Returns and Volatility

We can compute the average monthly return as \bar{r} = \frac{1}{N} \sum_{t = 1}^{N} r_{t}, and sample standard deviation as \hat{\sigma} = \sqrt{\frac{1}{N - 1} \sum_{t = 1}^{N} (r_{t} - \bar{r})}.

Annualizing Average Returns and Volatility

If we assume that the monthly returns are independent from each, we can annualize the average monthly return and volatility as: \begin{aligned} \bar{r}_{\text{Annual}} & = 12 \times \bar{r}_{\text{Monthly}}, \\ \hat{\sigma}_{\text{Annual}} & = \sqrt{12} \times \hat{\sigma}_{\text{Monthly}}. \end{aligned}
Using these expressions, we get for Apple that

	Monthly (%)	Annualized (%)
Mean	2.27	27.25
St. Dev.	12.68	43.94

Portfolios

Definition

In finance, a portfolio consists of allocating a certain amount of wealth into different assets such as stocks, bonds, and real estate.
Say you have two assets A and B.
Denote by r_{A} and r_{B} the HPR of each asset, respectively.
If you have a certain amount of wealth W, you can split it and invest W_{A} in asset A and the rest, W_{B} = W - W_{A}, in B.
Each dollar invested in A yields 1 + r_{A} dollars next period whereas each dollar invested in B generates 1 + r_{B}.

Portfolio HPR

Denote by r the HPR of your portfolio.
Using this notation, the total return of your investment next period is (1 + r) W.
But this amount can be computed by considering the returns of the individual investments in A and B (1 + r) W = (1 + r_{A}) W_{A} + (1 + r_{B}) W_{B}.
Since W = W_{A} + W_{B}, the previous expression can be simplified as r = \frac{W_{A}}{W} r_{A} + \frac{W_{B}}{W} r_{B}.

Portfolio Weights

The fractions W_{A} / W and W_{B} / W denote the proportion of wealth allocated to each asset.
In finance, we call these fractions the portfolio weights.
If we denote by w_{A} and w_{B} these portfolio weights, we can express the portfolio HPR as r = w_{A} r_{A} + w_{B} r_{B}.
The sum of the weights is by construction always equal to one.

Example 3 You have the following scenario analysis for the HPR of stocks X and Y:

Market	Probability	Stock X	Stock Y
Bull	0.3	40%	10%
Normal	0.5	15%	20%
Bear	0.2	-18%	-5%

Suppose that we split $10,000 to invest into $8,000 in Stock X and $2,000 in Stock Y. To compute the expected return and volatility of the portfolio, we could first compute the portfolio HPR in each state of the world. Using this information, the expected return of this portfolio is 15.12% with a standard deviation of 17.14%

The Law of One Price

The portfolio mathematics we just did relies on a very important assumption called the law of one price (LOOP).
In competitive markets, LOOP guarantees that the price of a basket of stocks is equal to the sum of the prices of its constituents.
This logic is at the heart of how Exchange-Traded Funds (ETF) operate.

Exchange Traded Funds

An ETF is a type of investment fund that is traded on stock exchanges, similar to individual stocks.
ETFs hold a diversified portfolio of assets, such as stocks, bonds, or commodities, which provides investors with broad exposure to specific markets or investment strategies.
ETF arbitrage is the mechanism that helps keep the market price of an ETF in line with its Net Asset Value (NAV). Authorized Participants (APs), typically large financial institutions, have the ability to create or redeem ETF shares in large blocks called creation units.

ETF Price Higher than NAV

When the ETF market price is higher than the NAV, APs can buy the underlying securities of the ETF in the open market and then deliver them to the ETF issuer in exchange for new ETF shares.
The AP can then sell these ETF shares at the higher market price, making a profit.
This buying of underlying securities pushes their prices up, while the selling of new ETF shares pushes the ETF price down, bringing the two prices closer together.

ETF Price Lower than NAV

When the ETF market price is lower than the NAV, APs can buy ETF shares in the open market and deliver them to the ETF issuer in exchange for the underlying securities.
The AP can then sell these underlying securities at the higher NAV price, making a profit.
This buying of ETF shares pushes their price up, while the selling of the underlying securities pushes their prices down, again bringing the two prices closer together.

And We Have a Liquid Market

This creation and redemption process happens continuously and helps to keep the ETF price in line with the NAV.
The arbitrage opportunities are typically small but sufficient for APs to engage in the process for profit, ensuring that the ETF price does not deviate significantly from its NAV.
You can find more information here.

The SPDR

One of the most important ETFs out there is the SPDR S&P 500 ETF Trust which tracks the S&P 500 Index.

Figure 2: The figure shows the monthly returns of SPDR (SPY) since the ETF was listed in 1993.