%-- Unknown date --%

,61)};

[xx,yy] = ndgrid(x{1},x{2}); y = peaks(xx,yy);

rand('state',0), noisy = y+(rand(size(y))-.5);

[smooth,p] = csaps(x,noisy,[],x);

surf(x{1},x{2},smooth.'), axis off

csaps(sensor_graph, noisy, [], sensor_graph)

playshow splexmpl

x = .0001+(-4:.2:4)

y=-3:.2:3;

[yy,xx] = meshgrid(y,x);

r = pi*sqrt(xx.^2+yy.^2);

z = sin(r)./r;

bcs = csapi({x,y}, z);

fnplt(bcs)

axis([-5 5 -5 5 -.5 1])

csapi

help csabi

doc csapi

csapi(sensor_graph)

%-- 1/5/11  8:25 PM --%

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

imagesc(transpose(sensor_graph))

figure

imagesc(transpose(sensor_graph))

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

imagesc(transpose(sensor_graph))

figure

surfc(transpose(sensor_graph))

help imscale

help scale'm

help scaleim

imagesc(imresize(transpose(sensor_graph),0.2))

imagesc(imresize(transpose(sensor_graph),0.02))

imagesc(imresize(transpose(sensor_graph),0.002))

imagesc(imresize(transpose(sensor_graph),0.005))

imagesc(imresize(transpose(sensor_graph),0.002))

imagesc(imresize(transpose(sensor_graph),0.005))

imagesc(imresize(transpose(sensor_graph),0.001))

imagesc(imresize(transpose(sensor_graph),0.1))

bar(sum(transpose(sensor_graph)))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian'))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian')))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian',[10 10])))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian',[100 100])))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian',[100 100],0.1)))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian',[100 100],1)))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian',[100 100],10)))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian',[100 100],100)))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian',[3 3],100)))

bar(imfilter(sum(transpose(sensor_graph)),fspecial('gaussian',[100 100],300)))

bar(medfilt1(sum(transpose(sensor_graph)),10))

bar(medfilt1(sum(transpose(sensor_graph)),100))

bar(medfilt1(sum(transpose(sensor_graph)),50))

bar(medfilt1(sum(transpose(sensor_graph)),10))

bar(sum(transpose(sensor_graph)))

bar(medfilt1(sum(transpose(sensor_graph)),100))

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

imagesc(transpose(sensor_graph))

figure

imagesc(transpose(sensor_graph))

imshow(transpose(sensor_graph))

imagesc(transpose(sensor_graph))

clear all

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

imagesc(transpose(sensor_graph))

imagesc(sum(transpose(sensor_graph)))

imagesc(imresize(sum(transpose(sensor_graph)),0.5))

imagesc(imresize(sum(transpose(sensor_graph)),0.2))

imagesc(imresize(sum(transpose(sensor_graph)),0.02))

imagesc(imresize(sum(transpose(sensor_graph)),0.08))

imagesc(imresize(sum(transpose(sensor_graph)),0.1))

filter(ones(1,40),sum(transpose(sensor_graph))

filter(ones(1,40),sum(transpose(sensor_graph)))

filter(ones(1,40),1,sum(transpose(sensor_graph)))

imagesc(filter(ones(1,40),1,sum(transpose(sensor_graph))))

imshow(filter(ones(1,40),1,sum(transpose(sensor_graph))))

imshow(filter(ones(1,40),1,sum(transpose(sensor_graph))),[])

imshow(repmat(filter(ones(1,40),1,sum(transpose(sensor_graph))),[100 1]),[])

imshow(repmat(filter(ones(1,80),1,sum(transpose(sensor_graph))),[100 1]),[])

imshow(edge(repmat(filter(ones(1,80),1,sum(transpose(sensor_graph))),[100 1]),'canny'),[])

imshow(edge(repmat(filter(ones(1,80),1,sum(transpose(sensor_graph))),[100
1]),'canny',[0.4 0.8]),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100 1]),'canny'),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100 1]),'canny',0.8),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100 1]),'canny',0.5),[])

imshow(edge(repmat(filter(ones(1,80),1,sum(transpose(sensor_graph))),[100 1]),'canny',0.5),[])

imshow(medfilt(sum(transpose(sensor_graph))),[100 1]),80)),[])

imshow(medfilt(sum(transpose(sensor_graph))),[100 1]),80))),[])

imshow(medfilt(sum(transpose(sensor_graph)),80))),[])

imshow(medfilt(sum(transpose(sensor_graph)),80)),[])

imshow(medfilt(sum(transpose(sensor_graph)),80),[])

imshow(medfilt1(sum(transpose(sensor_graph)),80),[])

imagesc(medfilt1(sum(transpose(sensor_graph)),80),[])

imagesc(medfilt1(sum(transpose(sensor_graph)),80))

imagesc(medfilt1(sum(transpose(sensor_graph)),20))

imagesc(blkproc(sum(transpose(sensor_graph)),[1 40]))

imagesc(blkproc(sum(transpose(sensor_graph)),[1 40],@sum))

imagesc(blkproc(sum(transpose(sensor_graph)),[1 80],@sum))

bar(blkproc(sum(transpose(sensor_graph)),[1 80],@sum))

bar(blkproc(sum(transpose(sensor_graph)),[1 40],@sum))

bar(sum(transpose(sensor_graph)))

unique(sensor_graph)

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

unique(sensor_graph)

bar(sum(transpose(sensor_graph)))

bar(blkproc(sum(transpose(sensor_graph)),[1 80],@sum))

imshow(edge(repmat(filter(ones(1,80),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.5),[])

imshow(edge(repmat(filter(ones(1,80),1,sum(transpose(sensor_graph))),[100
1]),'canny'),[])

imshow(repmat(filter(ones(1,80),1,sum(transpose(sensor_graph))),[100 1]),[])

imshow(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),[])

subclust(sum(transpose(sensor_graph)),0.5)

subclust([sum(transpose(sensor_graph))', (1:1001)'],0.5)

subclust([sum(transpose(sensor_graph))', (1:1001)'],0.1)

subclust([sum(transpose(sensor_graph))', (1:1001)'],1)

subclust([sum(transpose(sensor_graph))', (1:1001)'],0.8)

subclust([sum(transpose(sensor_graph))', (1:1001)'],0.6)

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny'),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.2),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.1),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.5),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.7),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.8),[])

bar(filter(ones(1,160),1,sum(transpose(sensor_graph))))

bwmorph(filter(ones(1,160),1,sum(transpose(sensor_graph))),'thin')

bar(cumsum(transpose(sensor_graph))))

bar(cumsum(transpose(sensor_graph)))

bar(cumsum(sum(transpose(sensor_graph))))

bar(edge(cumsum(sum(transpose(sensor_graph))),'canny'))

imshow(edge(repmat(cumsum(sum(transpose(sensor_graph))),[1 100]),'canny'))

imshow(edge(repmat(cumsum(sum(transpose(sensor_graph)))',[1 100]),'canny'))

imshow(edge(repmat(cumsum(sum(transpose(sensor_graph)))',[1
100]),'canny',0.6))

doc kde

help kde

data=[randn(100,1);randn(100,1)*2+35 ;randn(100,1)+55];

[bandwidth,density,xmesh]=kde(data,2^14,min(data)-5,max(data)+5);

plot(xmesh,density)

plot(data=

plot(data)

plot(xmesh, density)

figure, plot(data)

t_contour

test_cog

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.1),[])

test_cog

figure

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'sobel',0.1),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'sobel',0.2),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'sobel',0.6),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.1),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.8),[])

imshow(edge(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),'canny',0.5),[])

imshow(repmat(filter(ones(1,160),1,sum(transpose(sensor_graph))),[100
1]),[])

bar(blkproc(sum(transpose(sensor_graph)),[1 80],@sum))

bar(blkproc(sum(transpose(sensor_graph)),[1 40],@sum))

bar(edge(cumsum(sum(transpose(sensor_graph))),'canny'))

bar(cumsum(sum(transpose(sensor_graph))))

bar((sum(transpose(sensor_graph))))

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

doc error

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

bar(blkproc(sum(transpose(sensor_graph)),[1 40],@sum))

imshow(sensor_graph')

imshow(sensor_graph_mask')

surfc(sensor_graph')

surfc(sensor_graph_mask')

bar(sum(transpose(sensor_graph)))

bar(sum(sensor_graph'))

figure, bar(sum(sensor_graph_mask'))

bar(sum(sensor_graph'))

bar(blkproc(sum(sensor_graph')),[1 40], @sum)

bar(blkproc(sum(transpose(sensor_graph)),[1 40],@sum))

bar(blkproc(sum(sensor_graph'),[1 40],@sum))

figure, bar(blkproc(sum(sensor_graph_mask'),[1 40],@sum))

[bandwidth,density,xmesh]=kde(blkproc(sum(sensor_graph_mask'),[1
40],@sum),2^14,min(blkproc(sum(sensor_graph_mask'),[1
40],@sum))-5,max(blkproc(sum(sensor_graph_mask'),[1 40],@sum))+5);

figure, plot(xmesh,density)

data = blkproc(sum(sensor_graph'),[1 40],@sum)

[bandwidth,density,xmesh]=kde(data,2^14,min(data)-5,max(data)+5);

figure, plot(xmesh,density)

data = blkproc(sum(sensor_graph_mask'),[1 40],@sum)

data = blkproc(sum(sensor_graph_mask'),[1 40],@sum);

[bandwidth,density,xmesh]=kde(data,2^14,min(data)-5,max(data)+5);

figure, plot(xmesh,density)

data = blkproc(sum(sensor_graph'),[1 40],@sum);

[bandwidth,density,xmesh]=kde(data,2^14,min(data)-5,max(data)+5);

figure, plot(xmesh,density)

kde(data,2^14,min(data)-5,max(data)+5);

size(data)

close all

ex?t

%-- 1/8/11  7:42 PM --%

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

data = blkproc(sum(sensor_graph'),[1 40],@sum)

bar(blkproc(sum(sensor_graph'),[1 40],@sum))

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

Xc

Yc

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

bar(blkproc(sum(sensor_graph'),[1 40],@sum))

figure

bar(blkproc(sum(sensor_graph'),[1 40],@sum))

bar(blkproc(sum(sensor_graph'),[1 20],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 20],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 500],@sum))

blkproc(sum(sensor_graph'),[1 500],@sum)

tre = blkproc(sum(sensor_graph'),[1 500],@sum)

tre(1) / tre(2)

figure, bar(blkproc(sum(sensor_graph'),[1 40],@sum))

figure

test_cog

figure, bar(blkproc(sum(sensor_graph'),[1 1],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 10],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 20],@sum))

close all

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

figure, bar(blkproc(sum(sensor_graph'),[1 10],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 500],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 1],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 20],@sum))

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

figure, bar(blkproc(sum(sensor_graph'),[1 20],@sum))

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

bar(blkproc(sum(sensor_graph'),[1 20],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 20],@sum))

set(gca, 'XTickLabel', {0, 100, 200, 300, 400, 500, 600, 700, 800, 900,
1000});

set(gca, 'XTickLabel', {0, 200, 400, 600, 800);

set(gca, 'XTickLabel', {0, 200, 400, 600, 800});

set(gca, 'XTickLabel', {0, 200, 400, 600, 1000});

set(gca, 'XTickLabel', {0, 200, 400, 600, 800, 1000});

set(gca, 'XLim' ,[0 1000]);

set(gca, 'XTickLabel', {0, 200, 400, 600, 800, 1000});

set(gca, 'XLim' ,[0 1000]);

close all

bar(blkproc(sum(sensor_graph'),[1 20],@sum))

set(gca, 'XTickLabel', {0, 200, 400, 600, 800, 1000});

set(gca, 'XLim' ,[0 50]);

size(blkproc(sum(sensor_graph'),[1 20],@sum))

set(gca, 'XLim' ,[0 51]);

set(gca, 'XTickLabel', 0:100:1000);

help exportgif

help exportfig

test_cog

exportfig(gcf, 'test.eps')

set(gca, 'XTickLabel', -10:10:90

set(gca, 'XTickLabel', -10:10:90)

test_cog

set(gca, 'XTickLabel', -10:10:120)

set(gca, 'XTickLabel', -10:10:100)

set(gca, 'XTickLabel', -10:15:100)

set(gca, 'XTickLabel', -10:5:100)

set(gca, 'XTickLabel', -10:20:100

set(gca, 'XTickLabel', -10:20:120

set(gca, 'XTickLabel', -10:20:120)

set(gca, 'YTickLabel', -10:20:120)

help exportfig

exportfig(gcf,'test.eps','bounds','tight', 'color', 'rgb')

set(gca, 'XLim' ,[10 100]);

set(gca, 'XLim' ,[10 110]);

set(gca, 'YLim' ,[10 110]);

exportfig(gcf,'test.eps','bounds','tight', 'color', 'rgb')

set(gca, 'FontSize', 12)

exportfig(gcf,'test.eps','bounds','tight', 'color', 'rgb')

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

sum_all = sum(sum(sensor_graph));

figure;

bar(blkproc(sum(sensor_graph'),[1 20],@sum))

% set(gca, 'YLim' ,[0 1]);

set(gca, 'XTick', 0:100:1000);

set(gca, 'XTickLabel', {0, 100, 200, 300, 400, 500, 600, 700, 800, 900,
1000});

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

figure;

bar(blkproc(sum(sensor_graph'),[1 20],@sum))

% set(gca, 'YLim' ,[0 1]);

set(gca, 'XTick', 0:100:1000);

set(gca, 'XTickLabel', {0, 100, 200, 300, 400, 500, 600, 700, 800, 900,
1000});

figure, bar(blkproc(sum(sensor_graph'),[1 50],@sum))

close all

figure, bar(blkproc(sum(sensor_graph'),[1 50],@sum))

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

figure, bar(blkproc(sum(sensor_graph'),[1 50],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 100],@sum))

close all

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

figure, bar(blkproc(sum(sensor_graph'),[1 100],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 500],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 1000],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 500],@sum))

close all

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

set(gca, 'XLim', [0 2000])

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

bar(blkproc(sum(sensor_graph'),[1 20],@sum))

close all

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

temp1 = blkproc(sum(sensor_graph'), [1 100], @sum)

bar(temp1)

figure, bar(temp1)

set(gca, 'XLim', [0 20])

set(gca, 'XLim', [1 20])

set(gca, 'XLim', [0 20])

set(gca, 'XLim', [0 21])

set(gca, 'XLabels', 0:2000/20:2000)

set(gca, 'XTickLabel', 0:2000/20:2000)

set(gca, 'XLim', [1 21])

set(gca, 'XLim', [0 21])

set(gca, 'XLim', [0 20])

temp1 = blkproc(sum(sensor_graph'), [0 100], @sum)

temp1 = blkproc(sum(sensor_graph'), [1 20], @sum)

bar(temp1)

set(gca, 'XLim', [0 100])

temp1 = blkproc(sum(sensor_graph'), [1 20], @sum)

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

temp1 = blkproc(sum(sensor_graph'), [1 20], @sum)

figure, bar(temp1)

set(gca, 'XLim', [0 105])

set(gca, 'XLim', [0 102])

set(gca, 'XLim', [0 101])

set(gca, 'XLim', [0 100])

set(gca, 'XLim', [0 100.5])

set(gca, 'XLim', [0.5 100.5])

temp1 = blkproc(sum(sensor_graph'), [1 40], @sum)

temp2 = blkproc(sum(sensor_graph'), [1 40], @sum)

figure, bar(temp2)

set(gca, 'XLim', [0.5 50.5])

set(gca, 'XTickLabel', 0:2000/40:2000)

set(gca, 'XLim', [0 51])

set(gca, 'XTickLabel', 0:2000/20:2000)

set(gca, 'XTickLabel', 0:2000/10:2000)

set(gca, 'XLim', [0.5 50.5])

set(gca, 'XTickLabel', 0:2000/10:2000)

set(gca, 'XTickLabel', 0:2000/11:2000)

set(gca, 'XTickLabel', 0:2000/9:2000)

set(gca, 'XTickLabel', 0:2000/10:2000)

set(gca, 'XLim', [0 51])

sensor_graph

size(sensor_graph)

temp3 = blkproc(sum(sensor_graph'), [1 100], @sum)

figure, bar(temp3)

set(gca, 'XTickLabel', [0 2000])

set(gca, 'XTickLabel', [0:2000])

set(gca, 'XTickLabel', [0:2000/4:2000])

close all

run('D:\Documents\MATLAB\fig_multi_optimizedvsuniform.m')

[x1; x2]

(1 - integral_tfp).^(sensor_count_region)

(1 - integral_tfp)^(sensor_count_region)

size(sensor_count_region)

fig_multi_optimizedvsuniform

Z

z(:,3:5)

Z(:,3:5)

fig_multi_optimizedvsuniform

Z(:,3:5)

fig_multi_optimizedvsuniform

Z(:,3:5)

fig_multi_optimizedvsuniform

Z(:,3:5)

fig_multi_optimizedvsuniform

close all

fig_multi_optimizedvsuniform

run('D:\Documents\MATLAB\fig_multi_optimizedvsuniform.m')

run('D:\Documents\MATLAB\fig_multi_optimizedvsuniform_w.m')

close all

run('D:\Documents\MATLAB\fig_multi_optimizedvsuniform_w.m')

close all

run('D:\Documents\MATLAB\fig_multi_optimizedvsuniform_w.m')

exportfig(gcf,'test.eps','bounds','tight')

exportfig(gcf,'test.eps','bounds','tight', 'color', 'bw')

run('D:\Documents\MATLAB\fig_multi_optimizedvsuniform_w.m')

close all

run('D:\Documents\MATLAB\simelfes_beta_vs_lambda.m')

exportfig(gcf,'beta_vs_lambda.eps','bounds','tight', 'color', 'bw')

run('D:\Documents\MATLAB\simelfes_lambda_vs_beta.m')

exportfig(gcf,'lambda_vs_beta.eps','bounds','tight', 'color', 'bw')

run('D:\Documents\MATLAB\simelfes_singlesensor_beta_vs_lambda.m')

exportfig(gcf,'singlesensor_beta_vs_lambda.eps','bounds','tight', 'color',
'bw')

run('D:\Documents\MATLAB\simelfes_singlesensor_lambda_vs_beta.m')

exportfig(gcf,'singlesensor_lambda_vs_beta.eps','bounds','tight', 'color',
'bw')

run('D:\Documents\MATLAB\simelfes_beta_vs_lambda.m')

exportfig(gcf,'elfes_beta_vs_lambda.eps','bounds','tight', 'color', 'bw')

run('D:\Documents\MATLAB\simelfes_lambda_vs_beta.m')

exportfig(gcf,'elfes_lambda_vs_beta.eps','bounds','tight', 'color', 'bw')

close all

exportfig(gcf,'hw_ratio_binary.eps','bounds','tight', 'color', 'bw')

exportfig(gcf,'hw_ratio_elfes.eps','bounds','tight', 'color', 'bw')

exportfig(gcf,'hw_ratio_binary.eps','bounds','tight', 'color', 'bw')

exportfig(gcf,'hw_ratio_elfes.eps','bounds','tight', 'color', 'bw')

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

bar(blkproc(sum(sensor_graph'),[1 100],@sum))

figure, bar(blkproc(sum(sensor_graph'),[1 100],@sum))

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

close all

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

close all

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

%-- 1/11/11  2:23 PM --%

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

close all

run('D:\Documents\MATLAB\multigeneric_sensorcount_regioncount_sensoridx.m')

set(gcf, 'YLabel', Number of detections, N_d)

set(get(gca,'YLabel'),'Number of detections, N_d');

set(get(gca,'YLabel'),'String','Number of detections, N_d');

set(gca, 'XLim', [0 10])

set(gca, 'XLim', [0 11])

set(gca, 'XTickLabel', 0:100:1000)

set(gca, 'XTickLabel', 0:10)

set(gca, 'XTickLabel', {10 20})

figure, bar(blkproc(sum(sensor_graph'),[1 100],@sum))

set(gca, 'XLim', [0 11])

set(gca, 'XTickLabel', {'0-100', '100-200'})

set(gca, 'XTickLabel', 0:100:1000)

set(gca, 'XTickLabel', {'1-100', '101-200', '201-300', '301-400', '401-500',
'501-600'})

set(gca, 'XTickLabel', 1:10)

set(gca, 'XLim', [0 10])

set(gca, 'XLim', [0 10.5])

set(gca, 'XLim', [0.5 10.5])

figure, bar(blkproc(sum(sensor_graph'),[1 500],@sum))

te = bar(blkproc(sum(sensor_graph'),[1 500],@sum))

te = blkproc(sum(sensor_graph'),[1 500],@sum)

set(get(gca,'YLabel'),'String','Number of detections, N_d');

set(get(gca,'XLabel'),'String','Segment index');

exportfig(gcf,'bar_region_segments.eps','bounds','tight', 'color', 'bw')

exportfig(gcf,'bar_region_segments.eps','bounds','tight', 'color', 'rgb')

exportfig(restore)

restorefig

help restorefig

bar(blkproc(sum(sensor_graph'),[1 100],@sum))

set(gcf, 'XLim', [0.5 10.5])

set(gca, 'XLim', [0.5 10.5])

exportfig(gcf,'bar_region_segments.eps','bounds','tight', 'color', 'rgb')

exportfig(gcf,'bar_region_segments.eps','bounds','tight', 'color', 'bw')

bar(blkproc(sum(sensor_graph'),[1 100],@sum))

set(gca, 'XLim', [0.5 10.5])

exportfig(gcf,'bar_region_segments.eps','bounds','tight', 'color', 'rgb')

set(get(gca,'YLabel'),'String','Number of detections, N_d');

set(get(gca,'XLabel'),'String','Segment index');

exportfig(gcf,'bar_region_segments.eps','bounds','tight', 'color', 'rgb')

te = blkproc(sum(sensor_graph'),[1 500],@sum)

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ex?t

%-- 1/15/11  7:26 PM --%