Code covered by the BSD License  

Highlights from
Automated Trading with MATLAB - 2012

image thumbnail

Automated Trading with MATLAB - 2012

by

 

31 Aug 2012 (Updated )

Files from the Automated Trading webinar showing X_Trader and QuickFIX/J integration.

Algorithmic Trading with MATLAB: Rule Selection

Algorithmic Trading with MATLAB: Rule Selection

Previously, we developed a back testing framework to calibrate a simple trading strategy to intraday data. In this demo we'll use extend the approach to three signals: MA, RSI, and Williams %R.

Copyright 2010-2012, The MathWorks, Inc. All rights reserved.

Contents

Load data

step = 153; % minute intervals
annualScaling = sqrt(250*60*7/step);

cost = 0.01;

% Rather than forcing the customer to define and populate a database, we
% will instead read from a prepared data file.  If you wish, you may write
% the data from this file to a database of your choosing and adapt the
% GETMINUTEDATAFROMDB command to connect to and read from it.

% LCO = getMinuteDataFromDB('LCO');

load oilData
LCO = double(brent);
clearvars -except LCO step annualScaling cost

LCO = dsample(LCO(:,2:4), step);

Williams %R

By adapting the existing moving average strategy's code, we can make other trading strategies based on, for example, the Relative Strength Index and Williams %R. The key here is re-use: we only need to change a few lines of code to change from one strategy to the next. We can take a look at this indicator with, say, a 50-day window:

w = willpctr(LCO, 50);

indicatorChartWPR(w)

Williams %R trading strategy

Generate a trading signal each time we cross certain thresholds (up is a buy, down is a sell). We will set our trading thresholds at -20% and -80% and vary only the size of the window, but of course we can have all three of these be free parameters.

wpr(LCO,50,annualScaling,cost)

WPR performance

There is no reason to prefer the window parameter of 50 over other possibilities; let us sweep across many values to identify the optimal parameter setting.

range = {4:4:500};
wfun = @(x) wprFun(x,LCO,annualScaling,cost);

tic
[maxSharpe,param,sh] = parameterSweep(wfun,range);
toc

wpr(LCO,param,annualScaling,cost)
Elapsed time is 2.333903 seconds.

Generate trading signals

We will now generate three distinct trading signals based on a moving average, the Williams %R described above, and a Relative Strength Index. The parameters for each model have already been determined independently; we could just as easily determine the optimal set of parameters as an ensemble, if we wish.

%N = 25; M = 650; thresh = 80; P = 400; Q = 34; R = 10;
N = 1; M = 129; P = 22; Q = 14; R = 24; thresh = 80;
sma = leadlag(LCO(:,end), N, M, annualScaling, cost);
srs = rsi(LCO(:,end), [P Q], thresh, annualScaling, cost);
swr = wpr(LCO, R, annualScaling, cost);

signals = [sma srs swr];
names = {'MA','RSI','WPR'};

Trading signals

Plot the 'state' of the market represented by the signals. On the bottom plot, green is a long position and red is a short position.

indicatorChartALL(LCO(:,end), names, signals)

Generate initial population for Genetic Algorithm

Generate initial population for signals

I = size(signals,2);
pop = initializePopulation(I);

close all
plotRules(1,pop);

% Objective function definition
obj = @(pop) fitness(pop,signals,LCO(:,end),annualScaling,cost);

Solve With Genetic Algorithm

Find best trading rule and maximum Sharpe ratio (min -Sharpe ratio)

options = gaoptimset('PopulationType','bitstring',...
    'PopulationSize',size(pop,1),...
    'InitialPopulation',pop,...
    'CrossoverFcn', @crossover,...
    'MutationFcn', @mutation,...
    'PlotFcns', @plotRules,...
    'Vectorized','on');

best = ga(obj,size(pop,2),[],[],[],[],[],[],[],options)
Optimization terminated: average change in the fitness value less than options.TolFun.

best =

     0     0     0     1     0     1     1     0     1     1

Evaluate Best Performer

Evaluate the objective at the best value, and flip the sign convention for the optimal Sharpe ratio.

[minSh,s,r] = obj(best);
sh = -minSh;

ruleChartALL(LCO, sh, s, r)

Contact us