# computing distance between statements [closed]

Is it possible to compute the distance between two statements, in SPARQL or Jena? For example, is it possible to compute the distance between:

``````immanuel_kant dbprop:birthPlace Germany
John_Lock     dbprop:birthPlace England
``````
-
And what would the "distance" be in that example? –  Stephen C Oct 8 at 13:37
I want to calculate the distance ( number of the edges??) beetween those statements –  user2837896 Oct 8 at 13:41
I repeat my question to you. What is the "distance" between those two statements? As ask this because to my mind, your example doesn't make sense. –  Stephen C Oct 8 at 13:44
I would calculate a similarity measure between two instances ( in this case Kant e Lock) depending on ONLY a specific property in this case birthPlace. This is my goal –  user2837896 Oct 8 at 13:48
This is very similar to your previous question where you accepted an answer that said that calculating the distance between two statements just based on the statements themselves can't be calculated. The comments asked for more information about what you mean by distance, and you never clarified there, either. If you can explain the distance computation that you want to perform, and show what it should return for some particular instance (e.g., do it by hand for one example), then you might be able to get some useful answers here. –  Joshua Taylor Oct 8 at 14:14

## closed as unclear what you're asking by woliveirajr, skuntsel, Joshua Taylor, Siddharth, 0x7fffffffOct 9 at 2:35

Please clarify your specific problem or add additional details to highlight exactly what you need. As it's currently written, it’s hard to tell exactly what you're asking.If this question can be reworded to fit the rules in the help center, please edit the question.

It's hard to tell exactly what you're trying to compute (because we haven't been told), but it sounds like you'll be able to do this in SPARQL. The following query first computes a similarity metric for pairs of philosophers and binds it to `?initialSimilarity`. It's a just the ratio of the length of their names. It's not a particularly good similarity measure, but you said that you've already got some of these defined (the .60 that mentioned in the comments). Then the query retrieves the birthplaces of the two philosophers. If they're the same, then .05 is added to the similarity metric, or if they're different, .05 is subtracted, and this value is bound to `?finalSimilarity`. (Note that individuals may have multiple values for the birthPlace property, so you'll see the same pair of philosophers appear n×m times, where n is the number of birthplaces one has, and m the number that the other has. You could group by pairs here and then take the average of the final similarities, or you could do something to resolve the multiple statements, e.g., sample a representative birthplace for each one.)

``````select ?name1 ?name2 ?bp1 ?bp2 ?initialSimilarity ?finalSimilarity where {
dbpedia-owl:Philosopher ^a ?phil1, ?phil2 .
?phil1 rdfs:label ?name1 .
?phil2 rdfs:label ?name2 .
filter( langMatches(lang(?name1),"en") && langMatches(lang(?name2),"en"))

bind ( strlen(?name1) as ?len1 )
bind ( strlen(?name2) as ?len2 )
bind ( if(?len1 < ?len2, ?len1, ?len2) as ?minLen )
bind ( if(?len1 < ?len2, ?len2, ?len1) as ?maxLen )
bind ( ?minLen/xsd:double(?maxLen) as ?initialSimilarity )

?phil1 dbpedia-owl:birthPlace ?bp1 .
?phil2 dbpedia-owl:birthPlace ?bp2 .
bind ( if( ?bp1 = ?bp2, ?initialSimilarity + .05, ?initialSimilarity - .05) as ?finalSimilarity )
}
limit 10
``````

SPARQL Results

Based on the clarfications in the comments, it's not too hard to compute your initial similarity metric, which you've defined as the number of classes in common over the number of classes that the individuals have in total. This can be done with a query like this:

``````select ?philosopher1
?philosopher2
(count(distinct ?commonType) as ?intersection)
(count(distinct ?eitherType) as ?union)
(count(distinct ?commonType)/xsd:double(count(distinct ?eitherType)) as ?similarity)
where {
dbpedia-owl:Philosopher ^a ?philosopher1, ?philosopher2 .
filter( ?philosopher1 != ?philosopher2 )
?commonType ^a ?philosopher1, ?philosopher2 .
{ ?eitherType ^a ?philosopher1 } UNION
{ ?eitherType ^a ?philosopher2 }
}
group by ?philosopher1 ?philosopher2
limit 3
``````

SPARQL results

which produces results like this:

``````philosopher1                                  philosopher2                                    intersection  union similarity