June 1st, 2015

Bringing Perspective to Stock Trading Strategies

A stock price series can be viewed as a stochastic, erratic, chaotic and random-like time function with shocks, gaps and fat tails. Mostly unpredictable. Accepting this has for direct consequence: one can't predict with any significant accuracy the price of any stock, be it today, tomorrow, next week, next year, or 20 years from now for that matter. Saying that a stock might be between $0.00, $10,000 or whatever with a 95% confidence level in some 20 years does not help at all.

An acceptable mathematical representation of a price series can be a Stochastic Differential Equation: dp = µdt + σdW; which not only show its regression line (its drift) but also its quasi-random nature. That one has such an equation at hand does not help in predicting prices, only in showing the quasi-random nature of the series. Detrend the price series (dp – µdt), and what's left is the quasi-random part of the equation (σdW). Personally, I'm accepting this equation with all it implies even if it is a rough representation of what is.

When you do signal analysis of an SDE, most of the time you are confronted with relatively small background noise over a signal line function. The Gaussian nature of the noise can be smoothed out to uncover the underlying function. But when analyzing stock price series most of those concepts go out the window since the function not only loses its Gaussian nature, it loses its underlying function which is being drowned in this random-like noise. So much so that more than 90% of short term price movements could be attributed to noise.

This is illustrated in the following chart of an SDE when viewed, and applied to stocks, from a 20+ year perspective:

   Stochastic Differential Equation - Long Term Perspective
Long Term SDE

The curves were smoothed out to their theoretical values. Be assured that they are much more erratic in real life, but their sum would still add up to dp: dp = µdt + σdW.

At the two extremes, start and finish, the origin of generated profits is a combination of the two right hand side components. The chart says that in the beginning of a long term trend most generated profits will have for origin randomness, while at the finish line, the trend itself will be responsible for most of the profits. A consequence of such a chart is that short term generated profits could be more the result of luck than of skill. And that a short term trading strategy might more resemble a betting system, like gambling coincidentally with a randomly biased coin tossing playscript.

On the right side of that chart, the long term 20+ year trend is the major contributor to the total generated profits. So much so that it dwarfs the random-like component of the SDE. This could also by why you don't find any day traders in the Forbes 500 list of richest people. But what you will find in that list are bag holders in all varieties; people that have opted to hold on to their shares holdings.

In fact, the probability of winning at the stock trading/investing "game" increases with the length of the holding time. It's another sigmoid function (s-shaped as in the chart above) starting slightly above 0.50 to reach asymptotically 1.00 for time intervals in excess of 20+ years. The stock market game is definitely biased to the upside for long term players.

To me, it is evident that I have to design trading strategies with a long term perspective. That whatever the trading script does, it must show that it can not only survive, but thrive over the long term and this in excess of a simple Buy & Hold. That's the real challenge.

One can design short term positive edge trading strategies, but the real question is not can it be done, it is will these be sustainable over the long term?


Created... June 1st, 2015 © Guy R. Fleury. All rights reserved.

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