Difference between revisions of "Pair Trading Models"

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* we exit short position when ''Z(t)'' <= E<sub>x</sub> (equivalent to ''R(t)'' <= ''U<sub>x</sub>(t)'')
 
* we exit short position when ''Z(t)'' <= E<sub>x</sub> (equivalent to ''R(t)'' <= ''U<sub>x</sub>(t)'')
 
* we exit long position when ''Z(t)'' >= -E<sub>x</sub> (equivalent to ''R(t)'' >= ''L<sub>x</sub>(t)'')
 
* we exit long position when ''Z(t)'' >= -E<sub>x</sub> (equivalent to ''R(t)'' >= ''L<sub>x</sub>(t)'')
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=== Moving Average Types ===
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You can choose from these moving average algorithms:
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* [http://www.investopedia.com/terms/s/sma.asp Simple Moving Average] (SMA)
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* [http://www.investopedia.com/terms/e/ema.asp Exponential Moving Average] (EMA)
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* [http://fxtrade.oanda.com/learn/forex-indicators/weighted-moving-average Weighted Moving Average] (WMA)
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* [http://www.investopedia.com/terms/d/double-exponential-moving-average.asp Double Exponential Moving Average] (DEMA)
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* [http://www.investopedia.com/terms/t/triple-exponential-moving-average.asp Triple Exponential Moving Average] (TEMA)
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* [http://daytrading.about.com/od/indicators/a/Triangular.htm Triangular Moving Average] (TMA)
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* [http://etfhq.com/blog/2011/11/07/adaptive-moving-average-ama-aka-kaufman-adaptive-moving-average-kama Kaufman Adaptive Moving Average] (KAMA)
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* [http://www.mesasoftware.com/Papers/MAMA.pdf MESA Adaptive Moving Average] (MAMA)
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* [http://www.tradeescort.com/AgenaIndicatorHelp/AgenaIndicator.html?T3TripleExponentialMovingAverage.html Triple Exponential T3 Moving Average]
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Which one is the best? It depends, you have to test for yourself. They mostly differ in the term of memory and how fast they react to changes. Industry standard and the default is EMA. We suggest to try all of them on some sample pair to see how they work.

Revision as of 12:07, 26 November 2014

Pair Trading Lab offers pair trading algorithms based on various mathematical models. These are models currently supported in PTL:

Contents

Ratio Model

This is one of the standard pair trading models described in literature. It is based in ratio of instrument prices, moving average and standard deviation. In other words, it is based on Bollinger Bands indicator.

Model Support

  • in PTL backtester: yes (max Z-score not supported)
  • in PTL portfolio backtester: yes
  • in PTL Trader: yes

Model Neutrality

We currently support only dollar-neutral version of this model, which means we allocate same amounts of margin to both legs based on current prices at the time of opening the position.

Model Parameters

  • entry threshold En for Z-score, typical value range is <1.5, 2.5>, 2.0 is used most often
  • exit threshold Ex for Z-score, typical value is <-0.5, 0.5>, 0 is used most often...we allow positive values only for now
  • max Z-score Emax (optional, to filter out extremes, typical value is >4 if used)
  • moving average period Pm (typical range <10, 100>), default = 15
  • moving average type T (algorithm), default = exponential
  • standard deviation period Ps (typical range <10, 100>), default = 15
  • entry mode (simple, uptick, downtick)

Description

  • we trade pair of stocks A, B, having price series A(t), B(t)
  • we need to calculate ratio time series R(t) = A(t) / B(t)
  • let's apply moving average of type T with period Pm on R(t) to get time series M(t)
  • let's apply standard deviation with period Ps on R(t) to get time series S(t)
  • now we can create Z-score series Z(t) as Z(t) = (R(t) - M(t)) / S(t), this time series can give us z-score to signal trading decision directly
  • another common approach (to visualize) is to create bands and put it above the moving average M(t):
    • upper entry band Un(t) = M(t) + S(t) * En
    • lower entry band Ln(t) = M(t) - S(t) * En
    • upper exit band Ux(t) = M(t) + S(t) * Ex
    • lower exit band Lx(t) = M(t) - S(t) * Ex
    • these bands are actually the same bands as in Bollinger Bands indicator and we can use crossing of R(t) and bands as trade signals

Entering Position

There are certain possible approaches how to interpret model statistics in order to make trading decisions. For entering position, we used to call them entry modes. This is the list of them and description how they work:

  • entry mode = simple:
    • to open short pair position, it is simple enough if the Z-score Z(t) >= En (equivalent to R(t) >= Un(t))
    • to open long pair position, it is simple enough if the Z-score Z(t) <= -En (equivalent to R(t) <= Ln(t))
  • entry mode = uptick: same as simple, but in addition, previous Z-score must be below the entry band (so we cross the band from inside to outside):
    • to open short pair position, we require Z(t) >= En (equivalent to R(t) >= Un(t)) and Z(t-1) < En (same as R(t-1) < Un(t-1))
    • to open long pair position, we require Z(t) <= -En (equivalent to R(t) <= Ln(t)) and Z(t-1) > -En (same as R(t-1) > Ln(t-1))
  • entry mode = downtick: we wait for the Z-score crossing back the band from outside to inside:
    • to open short pair position, we require Z(t) < En and Z(t-1) >= En and Z(t) > Ex
    • when using bands, it is the same as having R(t) < Un(t) and R(t-1) >= Un(t-1) and R(t) > Ux(t)
    • to open long pair position, we require Z(t) > -En and Z(t-1) <= -En and Z(t) < -Ex
    • when using bands, it is the same as having R(t) > Ln(t) and R(t-1) <= Ln(t-1) and R(t) < Lx(t)

Why do we have the simple entry mode? In normal situations and backtests, it gives same results as the uptick mode. But the difference comes up while trading multiple pairs in portfolio. The simple mode allows you to jump in the position immediately after a new slot is freed, regardless of the previous Z-scores.

Which entry mode is better? Hard to tell, sometimes the uptick, sometimes the downtick. You have to do your homework and decide, which idea suits your trading style better. In general, uptick/simple mode is more aggressive, as it does not wait for first signs of spread mean reversion.

Exiting Position

For exiting position, we always use only these simple rules:

  • we exit short position when Z(t) <= Ex (equivalent to R(t) <= Ux(t))
  • we exit long position when Z(t) >= -Ex (equivalent to R(t) >= Lx(t))

Moving Average Types

You can choose from these moving average algorithms:

Which one is the best? It depends, you have to test for yourself. They mostly differ in the term of memory and how fast they react to changes. Industry standard and the default is EMA. We suggest to try all of them on some sample pair to see how they work.

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