I have a set of Dicom images on matlab and i would like to add a midline going through all the images
I am outputting the images via imshow3d function
thanks
Edit: here's what i have, the random points are not in the middle they just run through the image
>> clc;
>>clear;
>>%imports dicom images
>>run DicomImport.m;
>>%random points for shortest distance test
>>a = [1 10 200];
>>b = [500 512 300];
>>ab = b - a;
>>n = max(abs(ab)) + 1;
>>s = repmat(linspace(0, 1, n)', 1, 3);
>>for d = 1:3
>> s(:, d) = s(:, d) * ab(d) + a(d);
>>end
>>s = round(s);
>>Z = 593;
>>N = 512;
>>X = zeros(N, N, Z);
>>X(sub2ind(size(X), s(:, 1), s(:, 2), s(:, 3))) = 1;
>>C = find(X);
>>ans.Img(C) = 5000;
>> %shows image
>>imshow3D(ans.Img);
So it looks like ans.Img contains the 3D matrix consisting of your image stack. It looks like you've got something going, but allow me to do this a bit differently. Basically, you need to generate a set of coordinates where we can access the image stack and draw a vertical line in the middle of the each image in the image stack. Do something like this. First get the dimensions of the stack, then determine the halfway point for the columns. Next, generate a set of coordinates that will draw a line down the middle for one image. After you do this, repeat this for the rest of the slices and get the column major indices for these:
%// Get dimensions
[rows,cols,slices] = size(ans.Img);
%// Get halfway point for columns
col_half = floor(cols/2);
%// Generate coordinates for vertical line for one slice
coords_middle_row = (1:rows).';
coords_middle_col = repmat(col_half, rows, 1);
%// Generate column major indices for the rest of the slices:
ind = sub2ind(size(ans.Img), repmat(coords_middle_row, slices, 1), ...
repmat(coords_middle_col, slices, 1), ...
reshape(kron(1:slices, ones(rows, 1)), [], 1));
%// Set the pixels accordingly
ans.Img(ind) = 5000;
This code is quite similar to the answer I provided to one of your earlier question; i.e. I don't use imshow3D but the framework is similar and simpler to modify in order to suit your need. In this case, upon pressing a pushbutton a line appears at the middle of the stack and you can scroll through it with the slider. I hope this can be of help.
function LineDicom(~)
clc
clear
close all
%// Load demo data
S = load('mri');
%// Get dimensions and number of slices.
ImageHeight = S.siz(1); %// Not used here
ImageWidth = S.siz(2); %// Not used here
NumSlices = S.siz(3);
S.D = squeeze(S.D);
%// Create GUI
hFig = figure('Position',[100 100 400 400],'Units','normalized');
%// create axes with handle
handles.axes1 = axes('Position', [0.2 0.2 0.6 0.6]);
%// create y slider with handle
handles.y_slider = uicontrol('style', 'Slider', 'Min', 1, 'Max', NumSlices, 'Value',1, 'Units','normalized','position', [0.08 0.2 0.08 0.6], 'callback', #(s,e) UpdateY);
handles.SlideryListener = addlistener(handles.y_slider,'Value','PostSet',#(s,e) YListenerCallBack);
%// Create pusbutton to draw line
handles.DrawLineButton= uicontrol('style', 'push','position', [40 40 100 30],'String','Draw line', 'callback', {#DrawLine,handles});
%// Flag to know whether pushbutton has been pushed
handles.LineDrawn = false;
%// Show 1st slice
imshow(S.D(:,:,1))
guidata(hFig,handles);
%// Listeners callbacks followed by sliders callbacks. Used to display each
%// slice smoothly.
function YListenerCallBack
handles = guidata(hFig);
%// Get current slice
CurrentSlice = round(get(handles.y_slider,'value'));
hold on
imshow(S.D(:,:,CurrentSlice));
%// If button was button, draw line
if handles.LineDrawn
line([round(ImageWidth/2) round(ImageWidth/2)],[1 ImageHeight],'Color','r','LineWidth',2);
end
drawnow
guidata(hFig,handles);
end
function UpdateY(~)
handles = guidata(hFig); %// Get handles.
CurrentSlice = round(get(handles.y_slider,'value'));
hold on
imshow(S.D(:,:,CurrentSlice));
if handles.LineDrawn
line([round(ImageWidth/2) round(ImageWidth/2)],[1 ImageHeight],'Color','r','LineWidth',2);
end
drawnow
guidata(hFig,handles);
end
%// Pushbutton callback to draw line.
function DrawLine(~,~,handles)
line([round(ImageWidth/2) round(ImageWidth/2)],[1 ImageHeight],'Color','r','LineWidth',2);
handles.LineDrawn = true;
guidata(hFig,handles);
end
end
Sample output:
and after moving the slider up:
Is this what you meant? If not I'll remove that answer haha and sorry.
Related
I am using MATLAB in order to analyse cell images. At the moment, I am able to detected and measure circular cells only (image attached). Is there a way, I can detect the other cells and measure them? Perhaps, by adding an outline to all the cells and then measuring?
Code so far:
tic
close all
clear all
dir = 'C:\Users\CBE user 70\Google Drive\Gloria - PhD\PhD Thesis\Chapter 4 - DS coculture\Pictures\DSHALO MBB\16MARCH\';
FileName = 'DH1L116march(2).JPG';
Pixel2MicroMeterRatio = 6;
HistBinEdges = [5:1:25 ];
vi = 0.05; % vertical increase in sublpot size (normalized)
hi = 0.08; % horizontal increase in sublpot size (normalized)
i = imread([dir,FileName]);
i2 = i(:,:,3);
i2= imadjust(i2);
% increase imfindcircles from [11 50] to [5 99], as the cells here are
% larger here
[CircCenter, CircRadii] = imfindcircles(i2,[5 99],'ObjectPolarity','dark');
NumOfCells = length(CircRadii);
sp(1) = subplot(2,2,1);
imshow(i)
sp(2) = subplot(2,2,2);
imshow(i2)
hold on
c=viscircles(CircCenter, CircRadii,'EdgeColor','r','linewidth',1,'linestyle',':');
c.Children(2).Visible = 'off';
for i=1:NumOfCells
text(CircCenter(i,1),CircCenter(i,2),num2str(i),'fontsize',6,'color','c','HorizontalAlignment','center','VerticalAlignment','middle')
end
I'm trying to plot small images on a larger plot... Actually its isomap algorithm, I got many points, now each point correspond to some image, I know which image is it... The porblem is how to load that image and plot on the graph?
One more thing I have to plot both image and the points, so, basically the images will overlap the points.
Certainly, the type of image given here
Something like this should get you started. You can use the low-level version of the image function to draw onto a set of axes.
% Define some random data
N = 5;
x = rand(N, 1);
y = rand(N, 1);
% Load an image
rgb = imread('ngc6543a.jpg');
% Draw a scatter plot
scatter(x, y);
axis([0 1 0 1]);
% Offsets of image from associated point
dx = 0.02;
dy = 0.02;
width = 0.1;
height = size(rgb, 1) / size(rgb, 2) * width;
for i = 1:N
image('CData', rgb,...
'XData', [x(i)-dx x(i)-(dx+width)],...
'YData', [y(i)-dy y(i)-(dy+height)]);
end
I have created a big heat map using matlab's imagesc command. It plots the error output for each combination of the values in x and y axes. As can be seen in the figure there are too many axes labels. This might become even denser as I plan to increase the number of points in both x and y axes - which means I will get more outputs on a finer grid.
I want to be flexible with the labels, and skip some of them. I want to do this for both X and Y. I also want to be flexible with the "ticks" and draw either all of them or maybe skip some of them. Keep in mind that both the X and Y values are not increasing in order, at first the increment is 0.01 for 9 points, then 0.1, then 1 or 3 or whatever. I will change these increments too.
I tried to show what I want the graph look like in the second image. I want roughly the labels shown in red boxes only. As I said these are not set values, and I will make the increments smaller which will lead to denser plot.
Thank you for your help.
OS: Windows 7, 8 (64 bit)
Matlab version: Matlab 2014 a
You can manipulate the ticks and labels like this:
ticksarray=[1 33 41 100 ...] % edit these to whatever you want
tickslabels={'1', '33', '41', '100'; ...} % match the size of both arrays
set(gca,'XTick',ticksarray)
set(gca,'XTickLabel',tickslabels)
The same thing applies to the y-axis.
Small working example:
x=1:100;
y=2*x.^2-3*x+2;
plot(x,y)
ticksarray=[1 33 41 100];
tickslabels={'1', '33', '41', '100'};
set(gca,'XTick',ticksarray)
set(gca,'XTickLabel',tickslabels)
Example:
figure(1)
load clown
subplot(211)
imagesc(X);
subplot(212)
imagesc(X);
h = gca;
Now you can either set a maximum number of labels per axis:
%// define maximum number of labels
maxLabel = 3;
h.XTick = linspace(h.xlim(1),h.xlim(2),maxLabel);
h.YTick = linspace(h.ylim(1),h.ylim(2),maxLabel);
or define how many labels should be skipped:
%// define number of labels to skip
skipLabel = 2;
h.XTick = h.XTick(1:skipLabel:end);
h.YTick = h.YTick(1:skipLabel:end)
You can also get a different number of ticks and labels, more complicated though:
maxLabel = 3;
maxTicks = 6;
h.XTick = linspace(h.xlim(1),h.xlim(2),maxTicks);
h.YTick = linspace(h.ylim(1),h.ylim(2),maxTicks);
h.XTickLabel( setdiff( 1:maxTicks, 1:maxTicks/maxLabel:maxTicks ) ) = repmat({''},1,maxTicks-maxLabel);
h.YTickLabel( setdiff( 1:maxTicks, 1:maxTicks/maxLabel:maxTicks ) ) = repmat({''},1,maxTicks-maxLabel);
If you use a prior version of Matlab 2014b, then you will need the set command to set all properties:
%// define maximum number of labels
maxLabel = 3;
Xlim = get(h,'Xlim');
Ylim = get(h,'Ylim');
set(h,'XTick', linspace(Xlim(1),Xlim(2),maxLabel));
set(h,'YTick', linspace(Ylim(1),Ylim(2),maxLabel));
%// or define number of labels to skip
skipLabel = 2;
XTick = get(h,'XTick');
YTick = get(h,'YTick');
set(h,'XTick', XTick(1:skipLabel:end));
set(h,'YTick', YTick(1:skipLabel:end));
%// or combined
maxLabel = 3;
maxTicks = 6;
Xlim = get(h,'Xlim');
Ylim = get(h,'Ylim');
set(h,'XTick', linspace(Xlim(1),Xlim(2),maxTicks));
set(h,'YTick', linspace(Ylim(1),Ylim(2),maxTicks));
XTickLabel = cellstr(get(h,'XTickLabel'));
YTickLabel = cellstr(get(h,'YTickLabel'));
XTickLabel( setdiff( 1:maxTicks, 1:maxTicks/maxLabel:maxTicks ),: ) = repmat({''},1,maxTicks-maxLabel);
YTickLabel( setdiff( 1:maxTicks, 1:maxTicks/maxLabel:maxTicks ),: ) = repmat({''},1,maxTicks-maxLabel);
set(h,'XTickLabel',XTickLabel);
set(h,'YTickLabel',YTickLabel);
After applying the second method proposed by #thewaywewalk I got the second figure below. Apparently the labels need to be structured as well, because they only take the first so many labels.
Then I tried to manipulate the labels as shown below, and got the third image.
skipLabel = 2;
XTick = get(h,'XTick');
YTick = get(h,'YTick');
set(h,'XTick', XTick(1:skipLabel:end));
set(h,'YTick', YTick(1:skipLabel:end));
XTickLabel = get(h,'XTickLabel');
labelsX = cell( length(1: skipLabel:length(XTick)) , 1);
j = 1;
for i = 1: skipLabel:length(XTick)
labelsX{j} = XTickLabel(i, :);
j = j + 1;
end
set(h,'XTickLabel', labelsX);
YTickLabel = get(h,'YTickLabel');
labelsY = cell( length(1: skipLabel:length(YTick)) , 1);
j = 1;
for i = 1: skipLabel:length(YTick)
labelsY{j} = YTickLabel(i, :);
j = j + 1;
end
set(h,'YTickLabel', labelsY);
The Y axis labels seem to be in place as before (right next to tick), however the X axis labels seem to be shifted to the left a little. How can I correct this?
Another note: How can I change the scientific values into normal numbers? Also, probably there is a better approach at manipulating the labels.
What I would like to do is plot an image of a graph (from say a pdf file or a scanned image). Next, I would like to overlay an axis on the graph in the image, and then plot data on that axis (over the image).
Using imtool, I know the coordinates of the graph in the image (x range = ~52-355 pixels, and y range = 23(top) - 262(bottom) pixels in this case).
This is what I have tried:
I = imread('C:\MATLAB\R2014a\help\images\ref\ftrans2_fig.png');
I = squeeze(uint8(mean(I,3)));
figure, imshow(I)
[rows, cols] = size(I);
x_data = (-1 : .01 : +1)';
y_data = 1 - x_data.^2;
h1 = axes('Position',([52, 23, 355-52, 262-23] ./ [cols, rows, cols, rows] ));
set(h1, 'Color', 'none')
hold on
plot(x_data, y_data, '-rx')
Question: Knowing the pixel coordinates of the graph in the image, how do I determine the proper position of the axis in the figure, (my code fails to account for the actual size of the figure box, the gray border around the image). I have to do this for several images and sets of data, so I would like an automated method, assuming I find the coordinates of the graphs in the image ahead of time.
Thanks for your reply! (1st time posting, please be kind)
You may be able to solve your problem by forcing the image onto the same axis as the plot. Try this:
I = imread('C:\MATLAB\R2014a\help\images\ref\ftrans2_fig.png');
I = squeeze(uint8(mean(I,3)));
[rows, cols] = size(I);
x_data = (-1 : .01 : +1)';
y_data = 1 - x_data.^2;
h1 = axes('Position',([52, 23, 355-52, 262-23] ./ [cols, rows, cols, rows] ));
set(h1, 'Color', 'none')
hold on
image(I, 'Parent', h1);
plot(h1, x_data, y_data, '-rx')
That should at ensure that the plot axis and the image axis have the same origin, as they will be one and the same. You may need to adjust your sizing code. Let me know if that doesn't do it for you.
Good Luck!
I think I have it figured out.
It would have been easier if I could use:
figure, h1=imshow(I)
get(h1,'Position')
but that results in "The name 'Position' is not an accessible property for an instance of class 'image'."
Instead, this appears to work:
I = imread('C:\MATLAB\R2014a\help\images\ref\ftrans2_fig.png');
I = squeeze(uint8(mean(I,3)));
in_mag = 300;
figure, imshow(I, 'Border', 'tight', 'InitialMagnification', in_mag)
[rows, cols] = size(I);
x_data = (-1 : .01 : +1)';
y_data = 1 - x_data.^2;
% Coord of graph in image pixels
x_0 = 50; x_max = 354; y_0 = 262; y_max = 23;
h1 = axes('Position',([x_0, rows-y_0, x_max-x_0, y_0-y_max] ...
./ [cols, rows, cols, rows] ));
set(h1,'Color','none')
hold on
plot(x_data, y_data, '-rx')
ylim([0,1.4])
set(gca,'YColor', [0 0 1], 'XColor', [0 0 1])
However, if anybody has a better idea, I would be very happy to explore it!
Thanks
I am trying to read an image using imread then, save the RGB values of all of the pixels in an array. And finally, be able to recreate this image using only the RGB values.
This is the for loop that saves all of the RGB values of each pixel.
A=imread('image.jpg');
N=2500; %the image dimensions are 50x50
i=1;
rgbValues = zeros(N, 3);
for x = 1:50
for y = 1:50
rgbValues(i,:) = A(x,y,:);
i=i+1;
end
end
Now, how am I able to recreate this image if I have all of the rgb values saved.
A direct way to do this is:
ny = 50;
nx = 50;
recreatedImage = zeros(ny,nx,3, 'uint8');
for ind = 1:3
recreatedImage(:,:, ind) = ( reshape(rgbValues(:, ind), nx, ny))';
end
As Natan indicated, reshape will work also but you have to do this:
recreatedImage=reshape(rgbValues,[ny,nx,3]);
Which is, unfortunately, transposed so you will need to work it to get it rotated back up.
You might consider swapping your x and y values in your for loop so you iterate over all y and then all x values---because this is how MATLAB stores the data and you can change the above code to:
for ind = 1:3
recreatedImage(:,:, ind) = ( reshape(rgbValues(:, ind), ny, nx));
end
(edit) and then the direct reshape works as well:
rgbValuesBacktoShape=reshape(rgbValues,[50,50,3]);