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I'm looking for a gem or project that would let me identify that two names are the same person. For example

J.R. Smith == John R. Smith == John Smith == John Roy Smith == Johnny Smith

I think you get the idea. I know nothing is going to be 100% accurate but I'd like to get something that at least handles the majority of cases. I know that last one is probably going to need a database of nicknames.

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3  
How do you know that these are the same person? – Karl Knechtel Jan 19 '11 at 4:30
    
Humans who want to be identified will use a pretty consistent spelling of their name. The ones who don't want to be identified will be wildly different and no algorithm will catch it using only a name string. You'd have to also match addresses, phone numbers, zip-codes, credit-card numbers, email addresses, or whatever else you have that can uniquely identify them. Also, consider that "J." could be "John", "James", "Jerry", or any alternate spelling, like "Jon". – the Tin Man Jan 19 '11 at 4:41
    
I don't know 100% they are the same but I'm doing this in a context of Company Executives so for the most part I think I can be relatively sure they are the same person. Generally there is only one variation in the names I see and I have other ways of deduping. I just need to know from a human perspective if the names conceivably match. – hadees Jan 19 '11 at 4:43
    
Don't use the names as identifiers. Use another field; like social security numbers, or even database ids. – kikito Jan 19 '11 at 14:04
    
I don't have anything other then the name and positions but the positions seem to also vary a bit. – hadees Jan 19 '11 at 20:28
up vote 4 down vote accepted

I think one option would be to use a ruby implementation of the Levenshtein distance

The Levenshtein distance between two strings is defined as the minimum number of edits needed to transform one string into the other, with the allowable edit operations being insertion, deletion, or substitution of a single character.

Then you could define that names with a distance less than X (being X a number you will have to tweak) are from the same person.

EDIT Through a little search I was able to find another algorithm, based on phonetics called Metaphone

Still has a lot of holes in it, but I think that in this case the best everyone can do is to give you alternatives for you to test and see what works best

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1  
I disagree that the Levenshtein distance is the best way to model this. "Athanasios Theodorou" is likely the same person as "Tom Theodorou", whereas "K. Smith" is definitely not the same person as "M. Smith". Unfortunately, I have to give you -1 for this answer. – Brennan Vincent Jan 19 '11 at 4:39
    
I agree with you, but it's a way of getting at least some results right. This is a very complex process, not to say impossible. – nunopolonia Jan 19 '11 at 4:43
    
Then you should mention that in your answer and remove the bit about it being the "best and only option", in which case I'll remove my downvote. – Brennan Vincent Jan 19 '11 at 4:58
    
Based on @hadees comment " I am bringing data in from multiple sources about companies and the executive names sometimes vary a bit", I think using Levenshtein distance, might work since the task is narrowed down a lot based on the company. – the Tin Man Jan 19 '11 at 4:59
    
Like I said in my edit, the best we can do is to give suggestions of methods that can help. There isn't going to be any "out of the box" solution. – nunopolonia Jan 19 '11 at 5:09

This is a little late (and a shameless plug to boot), but for what it's worth, I wrote a human name parser during a GSoC project, which you can install with gem install namae. It does not detect your duplicates reliably obviously, but it helps you with such kind of tasks.

For instance, you can parse the names in your example and use a display form using initials to detect names whose initials are identical, and so on and so forth:

names = Namae.parse('J.R. Smith and John R. Smith and John Smith and John Roy Smith and Johnny Smith ')
names.map { |n| [n.given, n.family] }
#=> => [["J.R.", "Smith"], ["John R.", "Smith"], ["John", "Smith"], ["John Roy", "Smith"], ["Johnny", "Smith"]]
names.map { |n| n.initials expand: true }
#=> ["J.R. Smith", "J.R. Smith", "J. Smith", "J.R. Smith", "J. Smith"]
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Something like:

1: Convert names to arrays:

irb> names.map!{|n|n.scan(/[^\s.]+\.?/)}
["J.", "R.", "Smith"]
["John", "R.", "Smith"]
["John", "Smith"]
["John", "Roy", "Smith"]
["Johnny", "Smith"]

2: Some function of identity:

for a,b in names.combination(2)
    p [(a&b).size,a,b]
end
[2, ["J.", "R.", "Smith"], ["John", "R.", "Smith"]]
[1, ["J.", "R.", "Smith"], ["John", "Smith"]]
[1, ["J.", "R.", "Smith"], ["John", "Roy", "Smith"]]
[1, ["J.", "R.", "Smith"], ["Johnny", "Smith"]]
[2, ["John", "R.", "Smith"], ["John", "Smith"]]
[2, ["John", "R.", "Smith"], ["John", "Roy", "Smith"]]
[1, ["John", "R.", "Smith"], ["Johnny", "Smith"]]
[2, ["John", "Smith"], ["John", "Roy", "Smith"]]
[1, ["John", "Smith"], ["Johnny", "Smith"]]
[1, ["John", "Roy", "Smith"], ["Johnny", "Smith"]]

Or instead of & you may use .permutation + .zip + .max to apply some custom function, which determines, are to parts of names identical.


UPD:

aim = 'Rob Bobbie Johnson'
candidates = [
    "Bob Robbie John",
    "Bobbie J. Roberto",
    "R.J.B.",
]

$synonyms = Hash[ [
    ["bob",["bobbie"]],
    ["rob",["robbie","roberto"]],
] ]

def prepare name
    name.scan(/[^\s.]+\.?/).map &:downcase
end

def mf a,b # magick function
    a.zip(b).map do |i,j|
        next 1 if i == j
        next 0.9 if $synonyms[i].to_a.include?(j) || $synonyms[j].to_a.include?(i)
        next 0.5 if i[/\.$/] && j.start_with?(i.chomp '.')
        next 0.5 if j[/\.$/] && i.start_with?(j.chomp '.')
        -10 # if some part of name appears to be different -
            # it's bad even if another two parts were good
    end.inject :+
end

for c in candidates
    results = prepare(c).permutation.map do |per|
        [mf(prepare(aim),per),per]
    end
    p [results.transpose.first.max,c]
end

[-8.2, "Bob Robbie John"]  # 0.9 + 0.9 - 10 # Johnson != John # I think ..)
[2.4, "Bobbie J. Roberto"] # 1 + 0.9 + 0.5 # Rob == Roberto, Bobbie == Bobbie, Johnson ~~ J.
[1.5, "R.J.B."]            # 0.5 + 0.5 + 0.5
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1  
the strings should be folded to lowercase to increase the target size, then mapped back to the original name-case after matching. – the Tin Man Jan 19 '11 at 5:00
    
@the Tin Man, done ) – Nakilon Jan 19 '11 at 5:31

I don't think such a library exists.

I don't mean to offend, but this problem seems like it arises from poor design. Maybe if you post more details about the general problem you are trying to solve, people can suggest a better way.

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It isn't a design problem. I am bringing data in from multiple sources about companies and the executive names sometimes vary a bit. – hadees Jan 19 '11 at 4:39
    
@hadees : In that case, you have a tough problem on your hands. You will probably just have to think about it for a while and code your own function to do it. – Brennan Vincent Jan 19 '11 at 4:42
    
Yeah I kind of figured that but I was hoping someone might have already done it. I found a database that has nicknames so that should help. – hadees Jan 19 '11 at 4:47

The best pre-coded you will probably find for this is the gem just called "text".

https://github.com/threedaymonk/text

It has a number of matching algorithms: Levenshtein Distance, Metaphone, Soundex, and more.

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Ruby has a very nice gem called text and I've found the Text::WhiteSimilarity to be very good myself but it also implements a bunch of other tests

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