My project is extracting text in historical image............ i can't extract text from image in line by line.............

1 view (last 30 days)
Nivetha m
Nivetha m on 21 Jun 2016
Commented: Walter Roberson on 21 Jun 2016
CODE:
clear all;
clc;
%%Input image
img = imread ('19.jpg'); % Simple replace the 5.jpg to other no of images.
%Show input image
figure(1), imshow(img);
img = rgb2gray(img); % if the ip image is in clr convt into gray img.
img = double (img); % for conv of double to good precision... check the img values in the form 0.000 to 0.9999 by max
%Value for Thresholding
T_Low = 0.200;
% T_High = 0.175;
T_High = 0.275;
% T_high = 0.325;
%Gaussian Filter Coefficient
B = [2, 4, 5, 4, 2; 4, 9, 12, 9, 4;5, 12, 15, 12, 5;4, 9, 12, 9, 4;2, 4, 5, 4, 2 ];
B = 1/159.* B;
%Convolution of image by Gaussian Coefficient
A=conv2(img, B, 'same');
%Filter for horizontal and vertical direction
KGx = [-1, 0, 1; -2, 0, 2; -1, 0, 1];
KGy = [1, 2, 1; 0, 0, 0; -1, -2, -1];
%Convolution by image by horizontal and vertical filter
Filtered_X = conv2(A, KGx, 'same');
Filtered_Y = conv2(A, KGy, 'same');
%Calculate directions/orientations
arah = atan2 (Filtered_Y, Filtered_X);
arah = arah*180/pi;
pan=size(A,1);
leb=size(A,2);
%Adjustment for negative directions, making all directions positive
for i=1:pan
for j=1:leb
if (arah(i,j)<0)
arah(i,j)=360+arah(i,j);
end;
end;
end;
arah2=zeros(pan, leb);
%Adjusting directions to nearest 0, 45, 90, or 135 degree
for i = 1 : pan
for j = 1 : leb
if ((arah(i, j) >= 0 ) && (arah(i, j) < 22.5) || (arah(i, j) >= 157.5) && (arah(i, j) < 202.5) || (arah(i, j) >= 337.5) && (arah(i, j) <= 360))
arah2(i, j) = 0;
elseif ((arah(i, j) >= 22.5) && (arah(i, j) < 67.5) || (arah(i, j) >= 202.5) && (arah(i, j) < 247.5))
arah2(i, j) = 45;
elseif ((arah(i, j) >= 67.5 && arah(i, j) < 112.5) || (arah(i, j) >= 247.5 && arah(i, j) < 292.5))
arah2(i, j) = 90;
elseif ((arah(i, j) >= 112.5 && arah(i, j) < 157.5) || (arah(i, j) >= 292.5 && arah(i, j) < 337.5))
arah2(i, j) = 135;
end;
end;
end;
figure(2), imagesc(arah2); colorbar;
%Calculate magnitude
magnitude = (Filtered_X.^2) + (Filtered_Y.^2);
magnitude2 = sqrt(magnitude);
BW = zeros (pan, leb);
%Non-Maximum Supression
for i=2:pan-1
for j=2:leb-1
if (arah2(i,j)==0)
BW(i,j) = (magnitude2(i,j) == max([magnitude2(i,j), magnitude2(i,j+1), magnitude2(i,j-1)]));
elseif (arah2(i,j)==45)
BW(i,j) = (magnitude2(i,j) == max([magnitude2(i,j), magnitude2(i+1,j-1), magnitude2(i-1,j+1)]));
elseif (arah2(i,j)==90)
BW(i,j) = (magnitude2(i,j) == max([magnitude2(i,j), magnitude2(i+1,j), magnitude2(i-1,j)]));
elseif (arah2(i,j)==135)
BW(i,j) = (magnitude2(i,j) == max([magnitude2(i,j), magnitude2(i+1,j+1), magnitude2(i-1,j-1)]));
end;
end;
end;
BW = BW.*magnitude2;
figure(3), imshow(BW);
%Hysteresis Thresholding
T_Low = T_Low * max(max(BW));
T_High = T_High * max(max(BW));
T_res = zeros (pan, leb);
for i = 1 : pan
for j = 1 : leb
if (BW(i, j) < T_Low)
T_res(i, j) = 0;
elseif (BW(i, j) > T_High)
T_res(i, j) = 1;
%Using 8-connected components
elseif ( BW(i+1,j)>T_High || BW(i-1,j)>T_High || BW(i,j+1)>T_High || BW(i,j-1)>T_High || BW(i-1, j-1)>T_High || BW(i-1, j+1)>T_High || BW(i+1, j+1)>T_High || BW(i+1, j-1)>T_High)
T_res(i,j) = 1;
end;
end;
end;
edge_final = uint8(T_res.*255);
%Show final edge detection result
figure(4), imshow(edge_final);
INPUT IMAGE:
I USED MATLAB VERSION 7.8.0 (20009a)

Sign in to answer this question.

Answers (0)

Categories

Find more on Text Analytics Toolbox in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!