| [5] | 1 | %GENRIVER Generate 2D 2-class River data
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| 2 | %
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| 3 | % A = GENRIVER(N,L,S)
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| 4 | %
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| 5 | % INPUT
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| 6 | % N Number of objects in each of the classes (default: [50 50])
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| 7 | % L Length of the river, default: L = 1 (i.e. 2 bends)
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| 8 | % S Width of uniform class distribution on the river borders,
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| 9 | % default: S = 1;
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| 10 | %
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| 11 | % OUTPUT
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| 12 | % A Generated dataset
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| 13 | %
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| 14 | % Generate a separable 'bending river'-like 2D dataset of two classes.
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| 15 | % Class priors are equal.
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| 16 | %
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| 17 | % EXAMPLE
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| 18 | % repset = genriver([10 10],4);
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| 19 | % trainset = genriver([],4);
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| 20 | % w = proxm(repset,'d');
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| 21 | % v = w*fisherc(trainset*w);
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| 22 | % figure; scatterd(trainset); plotc(v)
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| 23 | %
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| 24 | % SEE ALSO
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| 25 | % DATASETS, PRDATASETS
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| 26 |
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| 27 | % Copyright: A. Harol, R.P.W. Duin, r.p.w.duin@prtools.org
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| 28 | % Faculty EWI, Delft University of Technology
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| 29 | % P.O. Box 5031, 2600 GA Delft, The Netherlands
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| 30 |
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| 31 | function a = genriver(N,len,s,d)
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| 32 |
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| 33 | prtrace(mfilename);
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| 34 |
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| 35 | if nargin < 4, d = 0; end
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| 36 | if nargin < 3, s = 1; end
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| 37 | if nargin < 2 | isempty(len), len = 1; end
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| 38 | if nargin < 1 | isempty(N), N = [50 50]; end
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| 39 |
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| 40 | p = [0.5 0.5];
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| 41 | N = genclass(N,p);
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| 42 | x1=len*2*pi*rand(1,N(1));
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| 43 | x2=sin(x1)+(s*rand(size(x1)))+d;
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| [88] | 44 | d1 = prdataset([x1',x2'],ones(size(x1')));
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| [5] | 45 | x3=len*2*pi*rand(1,N(2));
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| 46 | x4 = sin(x3)+(-s+s*rand(size(x3)))-d;
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| [88] | 47 | d2 = prdataset([x3',x4'],2*ones(size(x3')));
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| [5] | 48 | a = setprior([d1;d2],p);
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| 49 |
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| 50 | return
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