0001
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0003
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0006
0007
0008 close all;
0009
0010
0011 FIG_SIZE = [0 0 1000 800];
0012 MAX_PLOT_LEVEL = 4;
0013 NUM_BINS = [5 10 10 10];
0014 SMALL_VALUE = 10^(-10);
0015 lineWidth = 3;
0016 markerSize = 8;
0017 markerScale = 1.6;
0018
0019
0020 figure('outerPosition', FIG_SIZE, 'color', 'w');
0021 panelObj = panel('defer');
0022 panelObj.pack(2, 2);
0023 panelObj.fontsize = 15;
0024 panelObj.fontname = 'Arial';
0025 panelObj.fontweight = 'bold';
0026 panelObj.margin = [20 15 5 5];
0027 panelObj.de.margin = [15 15 5 5];
0028
0029 for iLevel = 1:MAX_PLOT_LEVEL
0030 [colIx, rowIx] = ind2sub([2, 2], iLevel);
0031 panelObj(rowIx, colIx).select();
0032
0033
0034 ceHorzProp = rowPathRatio(ceNetwork.LevelMatrix{iLevel});
0035 cxHorzProp = rowPathRatio(cxNetwork.LevelMatrix{iLevel});
0036 randHorzProp = [];
0037 smallHorzProp = [];
0038 for jNet = 1:numel(randNetwork)
0039 tmpHorzProp = rowPathRatio(randNetwork{jNet}.LevelMatrix{iLevel});
0040 randHorzProp = vertcat(randHorzProp, tmpHorzProp);
0041 tmpHorzProp = rowPathRatio(smallRingNet{jNet}.LevelMatrix{iLevel});
0042 smallHorzProp = vertcat(smallHorzProp, tmpHorzProp);
0043 end
0044
0045
0046 [ceProbDens, ceXOut] = probDensity(ceHorzProp, NUM_BINS(iLevel));
0047 [cxProbDens, pcbXOut] = probDensity(cxHorzProp, NUM_BINS(iLevel));
0048 [randProbDens, randXOut] = probDensity(randHorzProp, NUM_BINS(iLevel));
0049 [smallProbDens, smallXOut] = probDensity(smallHorzProp, NUM_BINS(iLevel));
0050
0051 ceProbDens = ceProbDens + SMALL_VALUE;
0052 cxProbDens = cxProbDens + SMALL_VALUE;
0053 randProbDens = randProbDens + SMALL_VALUE;
0054 smallProbDens = smallProbDens + SMALL_VALUE;
0055
0056
0057 hold on;
0058 semilogy(ceXOut, ceProbDens, 'Marker', netMarker('CE'), 'Color', ...
0059 netColor('CE'), 'MarkerFaceColor', netMarkerFace('CE'), ...
0060 'LineWidth', lineWidth, 'MarkerSize', markerSize);
0061 semilogy(pcbXOut, cxProbDens, 'Marker', netMarker('CX'), 'Color', ...
0062 netColor('CX'), 'MarkerFaceColor', netMarkerFace('CX'), ...
0063 'LineWidth', lineWidth, 'MarkerSize', markerSize * markerScale);
0064 semilogy(randXOut, randProbDens, 'Marker', netMarker('ER'), 'Color', ...
0065 netColor('ER'), 'MarkerFaceColor', netMarkerFace('ER'), ...
0066 'LineWidth', lineWidth, 'MarkerSize', markerSize * markerScale);
0067 semilogy(smallXOut, smallProbDens, 'Marker', netMarker('SW'), 'Color', ...
0068 netColor('SW'), 'MarkerFaceColor', netMarkerFace('SW'), ...
0069 'LineWidth', lineWidth, 'MarkerSize', markerSize);
0070
0071
0072 set(gca, 'yscale', 'log', 'lineWidth', 2, 'yTick', [10^-2, 1, 10^2]);
0073 xlim([0, 1]);
0074 ylim([10^(-3), 10^2]);
0075 if iLevel == 1
0076 legend('CE', 'CX', 'ER', 'SW');
0077 legend('location', 'NorthEast');
0078 hL = legend('boxoff');
0079 set(hL, 'fontsize', 12);
0080 end
0081 end
0082
0083 panelObj.xlabel('Horizontal propagation');
0084 panelObj.ylabel('Probability density');
0085 ylabelH = findobj('string', 'Probability density');
0086 panelObj.refresh();
0087 set(ylabelH, 'position', [0.1 1 0]);