技术标签: matlab车牌投影分割法
function [seg] = character_segmentation(bw, DIGIT_WIDTH, MIN_AREA);
% character_segmentation: Returns the digit segments in the supplied binary image.
% The function uses the "segment" function, keeping only the seven
% segments in the result with largest area, and in case less than seven
% segments were found, it attempts to recall the function, making the
% separation between the already found segments clearer (by cleaning the
% bits which are there.
seg = segment(bw, DIGIT_WIDTH, MIN_AREA);
[x y] = size(seg);
% If we got less than 7 digits, we try to make the sepration between them
% clearer by cleaning the bits between them, and we call the "segment"
% function again:
if x < 7
for i = 1 : x
bw(:,seg(i,2))=0;
end;
seg = segment(bw, DIGIT_WIDTH, MIN_AREA);
end;
% Keeping in the results the seven segments with the largest area:
area = [];
for i = 1 : x
pic = bw(:, seg(i,1) : seg(i,2), :);
area(i) = bwarea(pic); %bwarea函数计算对象面积
end;
area1 = sort(area);
seg = seg';
for j = 1:(length(area1)-7)
i = find(area == area1(j));
len = length(area);
if i == 1
area = [area(2:len)];
seg = [seg(:,2:len)];
elseif i == len
area = [area(1:i-1)];
seg = [seg(:,1:i-1)];
else
area = [area(1:i-1) area(i+1:len)];
seg = [seg(:,1:i-1) seg(:,i+1:len)];
end;
end;
seg = seg';
return;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function [segmentation] = segment(im, digit_width, min_area);
% segment: Segment the pictures in digit images according to the variable
% "digit_width" and returns a matrix containing the two bounds of the each
% digit segment. The function keeps in the result only segment whose
% "rectangular" areas is more than "min_area".
segmentation = [];
% Summing the colums of the pic:
t = sum(im);
% Getting the segments in the pic:
seg = clean(find_valleys(t, 2, 1, digit_width), 3);
% Keeping in the result only the segments whose rectangular areas is more than min_area:
j = 1;
for i = 1 : (length(seg) - 1)
band_width = seg(i+1) - seg(i);
maxi = max(t(1, seg(i):seg(i+1)));
if(maxi * band_width > min_area)
segmentation(j, 1) = seg(i);
segmentation(j, 2) = seg(i+1);
j = j + 1;
end;
end;
return;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function [s] = find_valleys(t, val, offset, digit_width);
% find_valleys: Uses the method named peak-to-valleyin order to segment the
% pictures in digit images getting the two bounds of the each digit segment
% according to the statistical parameter digit_width = 18.
% The function is recursive; it uses the vector of the sums of the columns
% in the LP binary image supplied in the parameter "t".
% The function passes over the graph corresponding to this vector from left
% to right, bottom-up, incrementing at each recursive step the height that
% is examined on the graph (val). It checks the bandwidth of the first part
% of the signal: if it is greater than DIGIT_WIDTH, the function is
% recursively called after incrementing the height which is examined on
% the graph, (val). Otherwise, if the bandwidth is good, the two bounds of
% the signal with this bandwidth are taken as a digit segment, and the
% function is recursively called for the part of the image which is at
% the right side of the digit segment just found. This is done until the
% whole width of the picture has been passed over.
% Determining the points which are inferior to the examined hieght:
s = find(t < val);
% If no more than one point is found, incrementing val and recursively calling the function again.
if(length(s) < 2)
s = find_valleys(t, val + 1, offset, digit_width);
return;
end;
% If no point is found terminating:
if length(s) == 0
return;
end;
% Arranging the boundaries, so that if we have a big value at the beginning
% or the end of the picture the algorithm still works: in this case, the
% algorithm includes also those points.
if((t(1,1) >= val) & s(1) ~= 1) %& ? &&
s = [1 s];
end;
if((t(1, length(t)) >= val) & s(length(s)) ~= length(t))
s = [s length(t)];
end;
% Updating the real coordinates according to offset:
s = add(s, offset - 1);
% Cleaning points which are very close each other keeping only one of them.
s = clean(s, 3);
% While there is a bad segment in "s", (starting from the left side):
while bad_segm(s, digit_width) == 1
for i = 1: (length(s) - 1)
if (s(i + 1) - s(i)) > digit_width
% The subvector which does not correspond to a valid digit
% segemnt:
sub_vec = t(1, s(i) - offset + 1 : s(i+1) - offset + 1);
% Recursively, separating this bad segment in two or more valid
% digit segments:
s = [s(1 : i) find_valleys(sub_vec, val + 1, s(i), digit_width) s(i+1 : length(s))];
end;
end;
end;
return;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function [bool] = bad_segm(s, digit_width);
% bad_segm: Returns true (1) iff there is a bad digit segment in s, namely,
% two points that ar distant one from the other by more than "digit_width".
if length(s) == 0
bool = 0;
return;
end;
tmp = s(1);
bool = 0;
for i = 2 : length(s)
if(s(i) - tmp) > digit_width
bool = 1;
return;
end;
tmp = s(i);
end;
return;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
function [t] = clean(s, val);
% clean: Cleans form the vector s all the poins which are distant the one
% from the other by less than "val" keeping only one of them.
t = [];
len = length(s);
i = 2;
j = 1;
while i <= len
while(s(i) - s(i-1) <= val)
i = i + 1;
if(i > len)
return;
end;
end;
if j == 1 | (s(i-1) - t(j-1)) > val %|| ? |
t(j) = s(i-1);
j = j + 1;
end;
t(j) = s(i);
j = j + 1;
i = i + 1;
end;
return;
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% function [t] = add(s, val); % add: Adds "val" to each one of the entries in the vector s and returns the new vector. len = length(s); t = []; for i = 1:len t(i) = s(i) + val; end; return;
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