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# OCR: weighted Levenshtein distance

I'm trying to create an optical character recognition system with the dictionary.

In fact I don't have an implemented dictionary yet=)

I've heard that there are simple metrics based on Levenstein distance which take in account different distance between different symbols. E.g. 'N' and 'H' are very close to each other and d("THEATRE", "TNEATRE") should be less than d("THEATRE", "TOEATRE") which is impossible using basic Levenstein distance.

Could you help me locating such metric, please.

Tanks for attention.

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This might be what you are looking for: http://en.wikipedia.org/wiki/Damerau%E2%80%93Levenshtein_distance (and kindly some working code is included in the link)

Update:

http://nlp.stanford.edu/IR-book/html/htmledition/edit-distance-1.html

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Unfortunately it's not what I was looking for. Anyway I'm already graduated with honors - and I don't need a solution anymore=) – leshka Jul 29 '11 at 11:35
That's odd, because it's purpose is exactly what you asked for. – briantyler Jul 29 '11 at 12:59
hmmm.. I've looked through your link. But what I've understood is that they just added one more operation: transposition. Where transposition is when you change two neighboring symbols. If I'm wrong could you please specify the place on the wiki page where they are talking about different distance between different letters? – leshka Jul 29 '11 at 13:07
Sorry I'de been looking at a lot of links that day, the second one needs to be taken in conjunction. – briantyler Jul 29 '11 at 18:10
yes! yes! yes! that's it. Thank you so much=) – leshka Jul 30 '11 at 6:52

Here is an example (C#) where weight of "replace character" operation depends on distance between character codes:

``````      static double WeightedLevenshtein(string b1, string b2) {
b1 = b1.ToUpper();
b2 = b2.ToUpper();

double[,] matrix = new double[b1.Length + 1, b2.Length + 1];

for (int i = 1; i <= b1.Length; i++) {
matrix[i, 0] = i;
}

for (int i = 1; i <= b2.Length; i++) {
matrix[0, i] = i;
}

for (int i = 1; i <= b1.Length; i++) {
for (int j = 1; j <= b2.Length; j++) {
double distance_replace = matrix[(i - 1), (j - 1)];
if (b1[i - 1] != b2[j - 1]) {
// Cost of replace
distance_replace += Math.Abs((float)(b1[i - 1]) - b2[j - 1]) / ('Z'-'A');
}

// Cost of remove = 1
double distance_remove = matrix[(i - 1), j] + 1;
// Cost of add = 1
double distance_add = matrix[i, (j - 1)] + 1;

matrix[i, j] = Math.Min(distance_replace,