car license plate character recognition using neural network
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sir again i have one big query...iwant to recognize the license plate charactyer using neural network...but really i m too much confuse that how could i find the link between segmented characters and neural network....means i m unable to find syntax of giving segmented characters as i/p of neural...plese ans me..if any idea...please.........any one help me.....
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Geoff
le 10 Avr 2012
I have not done plate recognition, and have only dabbled in neural networks, but I would expect that you need to translate your segmented characters into a vector. That means you first need to standardise the width and height of each segment, which will involve resampling. I would also expect some kind of image normalisation.
Then you can supply each segment as a 1-dimensional vector. The number of pixels in that vector is the number of inputs in your neural network. From memory, the neural network expects inputs along the rows, and each individual training case in the columns. So you would insert each segment-vector into a unique column of your input matrix. The corresponding training output vector, of course, is the character that each segment-vector represents.
Something like that, anyway =)
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Swati
le 10 Avr 2012
This one is the code for you,,,of Number plate recognition,,,I have earlier work on this one,,,,in this take a image of car,,then take seperate image of its no plate (for ex,,if no is MP 09-T_456,,,,so take seperate image of M then P,,,then,,,T,,,so on,,,all will b in a single folder n in .bmp format)
may ths one helps you,,,
{I = imread('car.jpg');
I2 = rgb2gray(I);
I4 = im2bw(I2, 0.2);
bw = bwareaopen(I4, 500);
se = strel('disk',15);
bw = imclose(bw,se);
bw = imfill(bw,[1 1]);
[B,L] = bwboundaries(bw,4);
imshow(label2rgb(L, @jet, [.5 .5 .5]))
hold on
for k = 1:length(B)
boundary = B{k};
plot(boundary(:,2),boundary(:,1),'w','LineWidth',2)
end
stats = regionprops(L,'Area','Centroid');
for k = 1:length(B)
boundary = B{k};
delta_sq = diff(boundary).^2;
perimeter = sum(sqrt(sum(delta_sq,2)));
area = stats(k).Area;
metric = 27*area/perimeter^2;
metric_string = sprintf('%2.2f',metric);
if metric >= 0.9 && metric <= 1.1
centroid = stats(k).Centroid;
plot(centroid(1),centroid(2),'ko');
goalboundary = boundary;
s = min(goalboundary, [], 1);
e = max(goalboundary, [], 1);
goal = imcrop(I4,[s(2) s(1) e(2)-s(2) e(1)-s(1)]);
end
text(boundary(1,2)-35,boundary(1,1)+13,...
metric_string,'Color','g',...
'FontSize',14,'FontWeight','bold');
end
goal = ~goal;
goal(256,256) = 0;
figure;
imshow(goal);
w = imread('P.bmp');
w = ~w;
C=real(ifft2(fft2(goal).*fft2(rot90(w,2),256,256)));
thresh = 240;
figure;
imshow(C > thresh);
4 commentaires
Archit Save
le 16 Jan 2016
Modifié(e) : Archit Save
le 16 Jan 2016
i am getting an error...'Undefined function or variable goal'
Image Analyst
le 16 Jan 2016
You probably renamed or misspelled a variable somewhere. What variable is given in the call to imshow() just prior to that? If goal weren't a variable, then the imshow() would have thrown an error before the fft line.
sneha
le 14 Avr 2012
1 commentaire
Derick kundukulam
le 23 Nov 2014
did the code work.. even i'm gettin the error C=real(ifft2(fft2(goal).*fft2(rot90(w,2),256,256)));
Image Analyst
le 14 Avr 2012
Have you checked here http://iris.usc.edu/Vision-Notes/bibliography/motion-f726.html#License%20Plate%20Recognition,%20Extraction,%20Analysis? Does neural nets seem to be the most common method?
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