Difference between revisions of "Graphing"

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(Histograms)
(Theoretical Distributions)
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== Theoretical Distributions ==
 
== Theoretical Distributions ==
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<source>
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x=linspace(-5,5,1000);
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xnorm = normpdf(x);
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plot(x,xnorm,'-k','LineWidth',2)
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</source>
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[[File:TheoreticalPlot1.png]]
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<source>
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hold all
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df = [1,5,10];
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for ii=1:length(df)
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    xt = tpdf(x,df(ii));
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    plot(x,xt)
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end
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legend('Normal','T-dist df=1','T-dist df=5','T-dist df=10')
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</source>
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[[File:TheoreticalPlot2.png]]
  
 
== Observed Distributions/Kernel Density Plots ==
 
== Observed Distributions/Kernel Density Plots ==

Revision as of 20:23, 23 October 2015

Introduction

Line Plots

For this example we use one of Matlab's sample dataset to plot a simple line plot showing the time series movement of the stock market data. First Load the data.

load stockreturns

The data contains a (100x10) matrix of stock market observations and we are going to plot all of these data point on a single line plot using the plot function.

figure
plot(stocks(:))

Lineplot1.png

To modify an existing plot use the hold on command. Subsequent plots will then be added to the current figure. For example to add to horizontal lines indicating +/- 1 standard deviation of the stocks data:

sd=std(stocks(:);
hold on
plot(xlim, [sd sd],'--r')
plot(xlim, [-sd -sd],'--r')

Lineplot2.png

Here, in each case the plot function is plotting a straight line between two points. The first argument, xlim queries the figure to get the coordinates of the start and end of the x-axis (a two element vector), provides the x coordinates. The second argument is a vector containing the corresponding y coordinates of the two points.

The '--r' arguments specifies the plotted line to a red dashed line. Matlab supports a number of line (and marker) types of varying colours; for full details refer to Matlab's documentation on LineSpec.

Scatter Diagrams

figure
scatter(educ,wage)

Scatterplot1.png


gscatter(educ,wage,female,'rk','do')
xlabel('years of education')
ylabel('average hourly earnings')
legend('female','male','Location','northwest')

Scatterplot2.png

Histograms

hist(stocks(:))

Histplot1.png

figure
hist(stocks(:),40)
set(get(gca,'child'),'FaceColor','cyan','EdgeColor','blue');
title('Histogram of stock prices')

Histplot2.png

Distribution Plots

Theoretical Distributions

x=linspace(-5,5,1000);
xnorm = normpdf(x);
plot(x,xnorm,'-k','LineWidth',2)

TheoreticalPlot1.png


hold all
df = [1,5,10];
for ii=1:length(df)
    xt = tpdf(x,df(ii));
    plot(x,xt)
end
legend('Normal','T-dist df=1','T-dist df=5','T-dist df=10')

TheoreticalPlot2.png

Observed Distributions/Kernel Density Plots