From anthropology to politics, analysts in many fields have used cluster analysis to help decipher complex relationships for nearly 90 years. But investment firms are only beginning to discover the powerful applications for detecting unknown risks lurking in market behavior patterns.
Mounting uncertainty in financial markets and increasingly knotty trading anomalies of securities are fueling demand for more sophisticated risk-management techniques. Cluster risk analysis is a good supplement to traditional risk tools and should play an increasing role in an investing tool kit, in our view. This technique seeks correlated sources of risk that may not be obvious to quantitative risk models or fundamental analysts. But investors need a better understanding about how cluster analysis works to ask their asset managers the right questions about how it’s being applied to an equity portfolio.
Why Should Investors Care About Clusters?
Cluster analysis dates to 1932, when it was first applied to an anthropological study that measured similarities between cultures. Since then, it’s been used in a long list of disciplines. In psychology, it was famously applied by Raymond Cattell to group personality traits into clusters in 1943. Biologists have used it since the 1960s to find common groups of cells and organisms. Political campaigns, market surveys and medical research all use cluster analysis to help analysts discover clear categories and to explain underlying processes and patterns.
In the investment world, cluster analysis is a relative newcomer. Recent studies from sell-side analysts have used it, for example, to generate insight about factor risks and to detect stages of the equity market cycle. Buy-side asset managers haven’t widely adopted cluster analysis in their risk-management tool kits, partly because computing technology wasn’t powerful enough to apply it to the complexity of markets. Yet as machine-learning techniques gain traction in the financial industry, more firms are starting to see the benefits of cluster analysis.
We think cluster analysis can generate essential investing insight. In today’s markets, it’s becoming increasingly difficult to predict how a plethora of political and policy risks could affect stock returns. With cluster analysis, portfolio managers can uncover relationships that other risk models may miss.
Moving Beyond Standard Risk Models
Standard risk models for equity portfolios focus on factors that affect performance, such as style, sector, country and currency. These models are designed to make sure that an investor is aware of a portfolio’s exposures and can avoid having the portfolio too heavily tied to particular areas of the market.
But fundamental risk models track only a defined set of risks. There are countless hazards to investment portfolios that slip under their radar screens, from interest rate risk to trade wars. When performance patterns of a group of stocks with similar business profiles but different risk classifications become correlated, cluster risk is created.
Cluster risk analysis aims to detect these unknown risks. It can help investors understand portfolio exposures and can be used as a building block for portfolio construction. When applied comprehensively, it can also be used as a framework for reviewing data from other risk tools to help understand the changing drivers of stock returns.
In portfolios that are driven by bottom-up stock selection, the quantitative nature of cluster risk analysis provides an important perspective. It serves as a lens through which the portfolio managers can balance the portfolio-level exposure to macroeconomic and other factors.
How Does It Work?
Cluster analysis has developed into a sophisticated machine-learning technique that segments stocks into groups whose returns have been moving closely together over a defined period. For example, it can help separate groups of stocks within an industry or subindustry that will benefit in a risk-on trade, when markets reward riskier assets, from other groups of stocks that may be more aligned with a risk-off environment. The analysis requires sophisticated data mining based on algorithms with internal rules, rather than learning from examples. The goal is to create groups of items that are “close to” and “distant” from each other.
Choosing the right algorithm for the job is no easy task. The literature on cluster analysis includes thousands of different algorithms that can be used. Finding the right one for a particular problem requires expertise in the vast mathematical and computational options as well as in the target market and the investing research objectives.
Even after getting the math right, defining clusters can be tricky. For example, as the display below shows, the same group of 15 dots can be seen as two or three distinct clusters. Now, imagine the data-mining complexity involved in identifying distinctive clusters of stock patterns among thousands of global securities that are being traded constantly, with prices shifting by the millisecond.
