# Using Genetic Algorithms to Forecast Financial Markets

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In “A Random Walk Down Wall Street” (1973), Burton Malkiel suggested, “A blindfolded monkey throwing darts at a newspaper’s financial pages could select a portfolio that would do just as well as one carefully selected by experts.” While evolution may have made man no more intelligent at picking stocks, Charles Darwin’s theory has proven to be effective when applied more directly.

Genetic algorithms are unique ways to solve complex problems by harnessing the power of nature. By applying these methods to predicting security prices, traders can optimize trading rules by identifying the best values to use for each parameter for a given security.

### Key Takeaways

• Complex computer algorithms based on rules of genetics and evolutionary theory have seen some recent success in securities trading.
• By applying these methods to predicting security prices, traders can optimize trading rules and create novel strategies.
• Individual traders can harness the power of genetic algorithms using several software packages on the market.

## What Are Genetic Algorithms?

Genetic algorithms (GAs) are problem-solving methods (or heuristics) that mimic the process of natural evolution. Unlike artificial neural networks (ANNs), designed to function like neurons in the brain, these algorithms utilize the concepts of natural selection to determine the best solution for a problem.

As a result, GAs are commonly used as optimizers that adjust parameters to minimize or maximize some feedback measure, which can then be used independently or in the construction of an ANN. (To learn more about ANNs, see: Neural Networks: Forecasting Profits.)

In the financial markets, genetic algorithms are most commonly used to find the best combination values of parameters in a trading rule, and they can be built into ANN models designed to pick stocks and identify trades.

## How Genetic Algorithms Work

Genetic algorithms are created mathematically using vectors, which are quantities that have direction and magnitude. Parameters for each trading rule are represented with a one-dimensional vector that can be thought of as a chromosome in genetic terms. Meanwhile, the values used in each parameter can be thought of as genes, which are then modified using natural selection.

There are three types of genetic operations that can then be performed:

• Crossovers represent the reproduction and crossover seen in biology, whereby a child takes on certain characteristics of its parents.
• Mutations represent biological mutation and are used to maintain genetic diversity from one generation of a population to the next by introducing random small changes.
• Selections are the stage at which individual genomes are chosen from a population for later breeding (recombination or crossover).

These three operations are then used in a five-step process:

1. Initialize a random population, where each chromosome is n-length, with n being the number of parameters. That is, a random number of parameters are established with n elements each.
2. Select the chromosomes, or parameters, that increase desirable results (presumably net profit).
3. Apply mutation or crossover operators to the selected parents and generate an offspring.
4. Recombine the offspring and the current population to form a new population with the selection operator.
5. Repeat steps two to four.

Over time, this process will result in increasingly favorable chromosomes (or parameters) for use in a trading rule. The process is then terminated when stopping criteria are met, which can include running time, fitness, number of generations or other criteria.

## Using Genetic Algorithms in Trading

While genetic algorithms are primarily used by institutional quantitative traders, individual traders can harness the power of genetic algorithms—without a degree in advanced mathematics—using several software packages on the market.

These solutions range from standalone software packages geared toward the financial markets to Microsoft Excel add-ons that can facilitate more hands-on analysis.

When using these applications, traders can define a set of parameters that are then optimized using a genetic algorithm and a set of historical data. Some applications can optimize which parameters are used and the values for them, while others are primarily focused on simply optimizing the values for a given set of parameters.

Curve fitting (i.e. overfitting), or designing a trading system around historical data rather than identifying repeatable behavior, represents a potential risk for traders using genetic algorithms. Any trading system using GAs should be forward-tested on paper before live usage.

Choosing parameters is an important part of the process, and traders should seek out parameters that correlate to changes in the price of a given security. For example, try out different indicators to see if any seem to correlate with major market turns.

## The Bottom Line

These algorithms are not the Holy Grail, and traders should be careful to choose the right parameters and not curve fit.

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