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I want to develop a matlab program that can extract and recognize the plate number of vehicle with template matching method. Here is my code:

function letters = PengenalanPlatMobil(citra)
%load NewTemplates
%global NewTemplates
citra=imresize(citra,[400 NaN]); % Resizing the image keeping aspect ratio same.
citra_bw=rgb2gray(citra); % Converting the RGB (color) image to gray (intensity).
citra_filt=medfilt2(citra_bw,[3 3]); % Median filtering to remove noise.
citra_dilasi=imdilate(citra_filt,se); % Dilating the gray image with the structural element.
citra_eroding=imerode(citra_filt,se); % Eroding the gray image with structural element.
citra_edge_enhacement=imsubtract(citra_dilasi,citra_eroding); % Morphological Gradient for edges enhancement.
citra_edge_enhacement_double=mat2gray(double(citra_edge_enhacement)); % Converting the class to double.
citra_double_konv=conv2(citra_edge_enhacement_double,[1 1;1 1]); % Convolution of the double image f
citra_intens=imadjust(citra_double_konv,[0.5 0.7],[0 1],0.1); % Intensity scaling between the range 0 to 1.
citra_logic=logical(citra_intens); % Conversion of the class from double to binary.
% Eliminating the possible horizontal lines from the output image of regiongrow
% that could be edges of license plate.
citra_line_delete=imsubtract(citra_logic, (imerode(citra_logic,strel('line',50,0))));
% Filling all the regions of the image.
% Thinning the image to ensure character isolation.

%Selecting all the regions that are of pixel area more than 100.
[labelled jml] = bwlabel(citra_final);
% Uncomment to make compitable with the previous versions of MATLAB®
% Two properties 'BoundingBox' and binary 'Image' corresponding to these
% Bounding boxes are acquired.

for ii=1:jml
    gambar= Iprops(ii).Image;
    % imshow(gambar);


but the number recognized is always wrong and too much is detected or sometimes too little. How to fix it?

Here is the images and this one

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This is a repeat of stackoverflow.com/questions/17926768/…, although you made the changes suggested in my answer to your previous post. My suggestion would be to isolate the license plate first from the rest of the image and then apply your code. –  Try Hard Aug 1 '13 at 8:09
@Try Hard : i have made the isolated plate and do that same code, but the segmentation result is wrong..How to fix it..Any suggestion –  Farhat Mann Aug 1 '13 at 13:10
In what sense is it wrong? It performs very well for me! –  Try Hard Aug 1 '13 at 13:12
in the amount of the character extraction. –  Farhat Mann Aug 1 '13 at 14:53
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2 Answers

up vote 0 down vote accepted

I would change the loop following character detection to


for ii=1:jml
    gambar{ii}= Iprops(ii).Image;

I think what you want to do at this point is either

(1) pick the roi in advance before applying character extraction and ocr.


(2) apply ocr to all of the characters from the entire image and then use proximity rules or other rules to identify the license plate number.


If you run the following loop after character extraction you can get an idea what I mean by "proximity":

[xn yn]=size(citra); % <-- citra is the original image matrix
figure, hold on 
for ii=1:jml
    gambar{ii}= double(Iprops(ii).Image)*255;
    image([bb(1) bb(1)+bb(3)],[yn-bb(2) yn-bb(2)-bb(4)],gambar{ii});

Here is the image after edge detection:


and after character extraction (after running the loop above):


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What is "yn" variable mean? –  Farhat Mann Aug 1 '13 at 14:25
I missed that: it is the size in the y dimension of the image. –  Try Hard Aug 1 '13 at 14:27
From the character extraction, how we can matching it with the template and know the exact value of the character? because the extraction's character shape is too thick. –  Farhat Mann Aug 1 '13 at 14:49
Do you mean ocr did not work for some characters because they were too thick? I'll look into it but I suggest you post another question asking this specifically. Ideally post one of the characters extracted from the license plate, and explain why your attempt to perform ocr on it did not work. –  Try Hard Aug 1 '13 at 14:56
By the way, do you mean one specific character is too thick? For instance I can see that the B is too thick, but the "4" and "J" characters look ok. –  Try Hard Aug 1 '13 at 14:57
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For number plate extraction you have to follow this algorithm(I used this in my project)

1. Find Histogram variation horizontally(by using imhist)
2. Find the part of histogram where you get maximum variation and get x1 and x2 value.
3. crop that image horizontally by using value of x1 and x2.
4. Repeat same process for vertical cropping.


In order to remove unnecessary information from the image, it requires only edges of the image to work. For detection of the edges, we make use of a built-in MATLAB function. But first we convert the original image to grayscale image.

This grayscale image is converted to binary image by determining a threshold for different intensities in the image. After binarization only, edge detection algorithm can be used. Here we have used ‘ROBERTS’. After extensive testing, it seemed our application the best. Then to determine the region of license plate we have done horizontal and vertical edge processing. First the horizontal histogram is calculated by traversing each column of an image. The algorithm starts traversing with the second pixel from the top of each column of image matrix. The difference between second and first pixel is calculated. If the difference exceeds certain threshold, it is added to total sum of differences. It traverses until the end of the column and the total sum of differences between neighbouring pixels are calculated. At the end, a matrix of the column-wise sum is created. The same process is carried out for vertical histogram. In this case, instead of columns, rows are processed.

Horizontal and Vertical Histogram

After calculating horizontal and vertical histogram we have calculated a threshold value which is 0.434 times of maximum horizontal histogram value. Our next step for extraction is cropping the area of interest i.e. number plate area. For cropping we first crop original image horizontally and then vertically. In horizontal cropping we process image matrix column wise and compare its horizontal histogram value with the predefined threshold value. If certain value in horizontal histogram is more than threshold we mark it as our starting point for cropping and continue until threshold value we find-less than that is our end point. In this process we get many areas which have value more than threshold so we store all starting and end point in a matrix and compare width of each area, width is calculated difference of starting and end point. After that we find set of that staring and end point which map largest width. Then we crop image horizontally by using that starting and end point. This new horizontally cropped image is processed for vertical cropping. In vertical cropping we use same threshold comparison method but only difference is that this time we process image matrix row wise and compare threshold value with vertical histogram values. Again we get different sets of vertical start and end point again we find that set which map largest height and crop image by using that vertical start and end point. After vertical and horizontal cropping we get exact area of number plate from original image in RGB format.

Number Plate Extraction

For Recognition use template matching with correlation(using corr2() in matlab)

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