Mercurial > hg > camir-aes2014
view toolboxes/FullBNT-1.0.7/KPMstats/cwr_demo.m @ 0:e9a9cd732c1e tip
first hg version after svn
| author | wolffd |
|---|---|
| date | Tue, 10 Feb 2015 15:05:51 +0000 |
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% Compare my code with % http://www.media.mit.edu/physics/publications/books/nmm/files/index.html % % cwm.m % (c) Neil Gershenfeld 9/1/97 % 1D Cluster-Weighted Modeling example % clear all figure; seed = 0; rand('state', seed); randn('state', seed); x = (-10:10)'; y = (x > 0); npts = length(x); plot(x,y,'+') xlabel('x') ylabel('y') nclusters = 4; nplot = 100; xplot = 24*(1:nplot)'/nplot - 12; mux = 20*rand(1,nclusters) - 10; muy = zeros(1,nclusters); varx = ones(1,nclusters); vary = ones(1,nclusters); pc = 1/nclusters * ones(1,nclusters); niterations = 5; eps = 0.01; I = repmat(eye(1,1), [1 1 nclusters]); O = repmat(zeros(1,1), [1 1 nclusters]); X = x(:)'; Y = y(:)'; cwr = cwr_em(X, Y, nclusters, 'muX', mux, 'muY', muy, 'SigmaX', I, ... 'cov_typeX', 'spherical', 'SigmaY', I, 'cov_typeY', 'spherical', ... 'priorC', pc, 'weightsY', O, 'create_init_params', 0, ... 'clamp_weights', 1, 'max_iter', niterations, ... 'cov_priorX', eps*ones(1,1,nclusters), ... 'cov_priorY', eps*ones(1,1,nclusters)); % Gershenfeld's EM code for step = 1:niterations pplot = exp(-(kron(xplot,ones(1,nclusters)) ... - kron(ones(nplot,1),mux)).^2 ... ./ (2*kron(ones(nplot,1),varx))) ... ./ sqrt(2*pi*kron(ones(nplot,1),varx)) ... .* kron(ones(nplot,1),pc); plot(xplot,pplot,'k'); pause(0); px = exp(-(kron(x,ones(1,nclusters)) ... - kron(ones(npts,1),mux)).^2 ... ./ (2*kron(ones(npts,1),varx))) ... ./ sqrt(2*pi*kron(ones(npts,1),varx)); py = exp(-(kron(y,ones(1,nclusters)) ... - kron(ones(npts,1),muy)).^2 ... ./ (2*kron(ones(npts,1),vary))) ... ./ sqrt(2*pi*kron(ones(npts,1),vary)); p = px .* py .* kron(ones(npts,1),pc); pp = p ./ kron(sum(p,2),ones(1,nclusters)); pc = sum(pp)/npts; yfit = sum(kron(ones(npts,1),muy) .* p,2) ... ./ sum(p,2); mux = sum(kron(x,ones(1,nclusters)) .* pp) ... ./ (npts*pc); varx = eps + sum((kron(x,ones(1,nclusters)) ... - kron(ones(npts,1),mux)).^2 .* pp) ... ./ (npts*pc); muy = sum(kron(y,ones(1,nclusters)) .* pp) ... ./ (npts*pc); vary = eps + sum((kron(y,ones(1,nclusters)) ... - kron(ones(npts,1),muy)).^2 .* pp) ... ./ (npts*pc); end % Check equal cwr_pc = cwr.priorC'; assert(approxeq(cwr_pc, pc)) cwr_mux = cwr.muX; assert(approxeq(mux, cwr_mux)) cwr_SigmaX = squeeze(cwr.SigmaX)'; assert(approxeq(varx, cwr_SigmaX)) cwr_muy = cwr.muY; assert(approxeq(muy, cwr_muy)) cwr_SigmaY = squeeze(cwr.SigmaY)'; assert(approxeq(vary, cwr_SigmaY)) % Prediction X = xplot(:)'; [cwr_mu, Sigma, post] = cwr_predict(cwr, X); cwr_ystd = squeeze(Sigma)'; % pplot(t,c) pplot = exp(-(kron(xplot,ones(1,nclusters)) ... - kron(ones(nplot,1),mux)).^2 ... ./ (2*kron(ones(nplot,1),varx))) ... ./ sqrt(2*pi*kron(ones(nplot,1),varx)) ... .* kron(ones(nplot,1),pc); yplot = sum(kron(ones(nplot,1),muy) .* pplot,2) ... ./ sum(pplot,2); ystdplot = sum(kron(ones(nplot,1),(muy.^2+vary)) .* pplot,2) ... ./ sum(pplot,2) - yplot.^2; % Check equal assert(approxeq(yplot(:)', cwr_mu(:)')) assert(approxeq(ystdplot, cwr_ystd)) assert(approxeq(pplot ./ repmat(sum(pplot,2), 1, nclusters),post') ) plot(xplot,yplot,'k'); hold on plot(xplot,yplot+ystdplot,'k--'); plot(xplot,yplot-ystdplot,'k--'); plot(x,y,'k+'); axis([-12 12 -1 1.1]); plot(xplot,.8*pplot/max(max(pplot))-1,'k') hold off