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  • 稀疏表示字典的显示(MATLAB实现代码)

    本文主要是实现论文--基于稀疏表示的图像超分辨率《Image Super-Resolution Via Sparse Representation》中的Figure2。通过对100000个高分辨率和低分辨率图像块训练得到的高分辨率图像块字典,字典原子总数为512,图像块尺寸大小为9X9


    方法一:

    clc;
    clear all;
    
    % load dictionary
    load('Dictionary/D_512_0.15_9.mat');
    
    patch_size=9;
    nRow=24;
    nCol=22;
    D=Dh';
    w=nCol*patch_size;
    h=nRow*patch_size;
    
    gridx = 1:patch_size :w;  
    gridx = [gridx, w-patch_size+1];  
    gridy = 1:patch_size : h;  
    gridy = [gridy, h-patch_size+1];  
    K=512; %字典原子总数
    DD=cell(1,K);
    row=length(gridx);
    col=length(gridy);
    hIm=zeros([w,h]);
    for i=1:K
        DD{i}=D(i,:);
    end
    
    for ii = 1:length(gridx),
        for jj = 1:length(gridy),
            yy = gridx(ii);
            xx = gridy(jj);
            if (ii-1)*nRow+jj >K
                break
            end
            temp=DD{(ii-1)*nCol+jj};
            hPatch=reshape(temp,[patch_size,patch_size]);
            hIm(yy:yy+patch_size-1, xx:xx+patch_size-1) = hIm(yy:yy+patch_size-1, xx:xx+patch_size-1) +hPatch;
         end
    end
    
    figure;
    imagesc(hIm);
    colormap(gray);
    axis image;


    输出结果:



    能够看出,相比于论文中字典的显示图。颜色有点浅,通过调节MATLAB的colorbar,能够将背景颜色变深,

    结果例如以下图所看到的:





    方法二:

    通过http://www.cs.technion.ac.il/~elad/software/提供的ksvd工具箱中的displayDictionaryElementsAsImage( )函数,来实现字典的显示。

    displayDictionaryElementsAsImage.m

    function I = displayDictionaryElementsAsImage2(D, numRows, numCols,X,Y,sortVarFlag)
    % function I = displayDictionaryElementsAsImage(D, numRows, numCols, X,Y)
    % displays the dictionary atoms as blocks. For activation, the dictionary D
    % should be given, as also the number of rows (numRows) and columns
    % (numCols) for the atoms to be displayed. X and Y are the dimensions of
    % each atom.
    
    borderSize = 1;
    columnScanFlag = 1;
    strechEachVecFlag = 1;
    showImFlag = 1;
    
    if (length(who('X'))==0)
        X = 8;
        Y = 8;
    end
    if (length(who('sortVarFlag'))==0)
        sortVarFlag = 1;
    end
    
    numElems = size(D,2);
    if (length(who('numRows'))==0)
        numRows = floor(sqrt(numElems));
        numCols = numRows;
    end
    if (length(who('strechEachVecFlag'))==0) 
        strechEachVecFlag = 0;
    end
    if (length(who('showImFlag'))==0) 
        showImFlag = 1;
    end
    
    %%% sort the elements, if necessary.
    %%% construct the image to display (I)
    sizeForEachImage = sqrt(size(D,1))+borderSize;
    I = zeros(sizeForEachImage*numRows+borderSize,sizeForEachImage*numCols+borderSize,3);
    %%% fill all this image in blue
    I(:,:,1) = 1; %min(min(D));
    I(:,:,2) = 1; %min(min(D));
    I(:,:,3) = 1; %max(max(D));
    % %%% fill all this image in blue
    % I(:,:,1) = 0; %min(min(D));
    % I(:,:,2) = 0; %min(min(D));
    % I(:,:,3) = 1; %max(max(D));
    
    %%% now fill the image squares with the elements (in row scan or column
    %%% scan).
    if (strechEachVecFlag)
        for counter = 1:size(D,2)
            D(:,counter) = D(:,counter)-min(D(:,counter));
            if (max(D(:,counter)))
                D(:,counter) = D(:,counter)./max(D(:,counter));
            end
        end
    end
    
    
    if (sortVarFlag)
        vars = var(D);
        [V,indices] = sort(vars');
        indices = fliplr(indices);
        D = [D(:,1:sortVarFlag-1),D(:,indices+sortVarFlag-1)];
        signs = sign(D(1,:));
        signs(find(signs==0)) = 1;
        D = D.*repmat(signs,size(D,1),1);
        D = D(:,1:numRows*numCols);
    end
    
    counter=1;
    for j = 1:numRows
        for i = 1:numCols
    %         if (strechEachVecFlag)
    %             D(:,counter) = D(:,counter)-min(D(:,counter));
    %             D(:,counter) = D(:,counter)./max(D(:,counter));
    %         end
    %         if (columnScanFlag==1)
    %             I(borderSize+(i-1)*sizeForEachImage+1:i*sizeForEachImage,borderSize+(j-1)*sizeForEachImage+1:j*sizeForEachImage,1)=reshape(D(:,counter),8,8);
    %             I(borderSize+(i-1)*sizeForEachImage+1:i*sizeForEachImage,borderSize+(j-1)*sizeForEachImage+1:j*sizeForEachImage,2)=reshape(D(:,counter),8,8);
    %             I(borderSize+(i-1)*sizeForEachImage+1:i*sizeForEachImage,borderSize+(j-1)*sizeForEachImage+1:j*sizeForEachImage,3)=reshape(D(:,counter),8,8);
    %         else
                % Go in Column Scan:
                I(borderSize+(j-1)*sizeForEachImage+1:j*sizeForEachImage,borderSize+(i-1)*sizeForEachImage+1:i*sizeForEachImage,1)=reshape(D(:,counter),X,Y);
                I(borderSize+(j-1)*sizeForEachImage+1:j*sizeForEachImage,borderSize+(i-1)*sizeForEachImage+1:i*sizeForEachImage,2)=reshape(D(:,counter),X,Y);
                I(borderSize+(j-1)*sizeForEachImage+1:j*sizeForEachImage,borderSize+(i-1)*sizeForEachImage+1:i*sizeForEachImage,3)=reshape(D(:,counter),X,Y);
    %         end
            counter = counter+1;
        end
    end
    
    if (showImFlag) 
        I = I-min(min(min(I)));
        I = I./max(max(max(I)));
        imshow(I,[]);
    end




    測试程序

    displayDictionary_test.m

    clc;
    clear all;
    
    %载入字典
    load('F:ResearchScSRScSRDictionaryD_512_0.15_9.mat');
    
    patch_size=9;
    D=Dh;
    K=512;
    figure;
    %调用KSVD工具箱中的字典显示函数
    im=displayDictionaryElementsAsImage(D, floor(sqrt(K)), floor(size(D,2)/floor(sqrt(K))),patch_size,patch_size);


    输出结果:


    方法三:

    由于方法一显示的字典图像偏灰,对照度不强,所以通过对字典原子像素值进行拉伸变化到0-1。增强图像对照度。

    clc;
    clear all;
    
    % load dictionary
    load('Dictionary/D_512_0.15_9.mat');
    
    patch_size=9;
    nRow=24;
    nCol=22;
    D=Dh';
    w=nCol*patch_size;
    h=nRow*patch_size;
    
    gridx = 1:patch_size :w;  
    gridx = [gridx, w-patch_size+1];  
    gridy = 1:patch_size : h;  
    gridy = [gridy, h-patch_size+1];  
    K=512; %字典原子总数
    DD=cell(1,K);
    row=length(gridx);
    col=length(gridy);
    hIm=zeros([w,h]);
    for i=1:K
        DD{i}=D(i,:);
    end
    
    for ii = 1:length(gridx),
        for jj = 1:length(gridy),
            yy = gridx(ii);
            xx = gridy(jj);
            if (ii-1)*nRow+jj >K
                break
            end
            temp=DD{(ii-1)*nCol+jj};
            hPatch=reshape(temp,[patch_size,patch_size]);
            I=hPatch;
            I = I-min(min(min(I)));  
            I = I./max(max(max(I)));%对字典原子像素值进行拉伸变化到0-1  
            hIm(yy:yy+patch_size-1, xx:xx+patch_size-1) = hIm(yy:yy+patch_size-1, xx:xx+patch_size-1) +I;     
         end
    end
    
    figure;
    imshow(hIm);


    调整參数。将字典原子像素值拉伸变换到0-0.7

            hPatch=reshape(temp,[patch_size,patch_size]);
            I=hPatch;
            I = I-min(min(min(I)));  
            I = 0.7*I./max(max(max(I)));%对字典原子像素值进行拉伸变化到0-0.7  



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  • 原文地址:https://www.cnblogs.com/blfbuaa/p/7015755.html
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