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K-Nearest Neighbor Query in PostGIS

I am using the following Nearest Neighbor Query in PostGIS :

``````SELECT g1.gid g2.gid FROM points as g1, polygons g2
WHERE g1.gid <> g2.gid
ORDER BY g1.gid, ST_Distance(g1.the_geom,g2.the_geom)
LIMIT k;
``````

Now, that I have created indexes on the_geom as well as gid column on both the tables, this query is taking much more time than other spatial queries involving spatial joins b/w two tables.

Is there any better way to find K-nearest neighbors? I am using PostGIS.

And, another query which is taking a unusually long time despite creating indexes on geometry column is:

``````select g1.gid , g2.gid from polygons as g1 , polygons as g2
where st_area(g1.the_geom) > st_area(g2.the_geom) ;
``````

I believe, these queries arent benefited by gist indexes, but why?

Whereas this query:

``````select a.polyid , sum(length(b.the_geom)) from polygon as a , roads as b
where st_intersects(a.the_geom , b.the_geom);
``````

returns result after some time despite involving "roads" table which is much bigger than polygons or points table and also involve more complex spatial operators.

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I assume your question is how to speed up the query? Can you show us the results of `EXPLAIN ANALYZE SELECT ....`? That way we maybe could know what is going on there. – Thilo May 5 '12 at 11:05
No, My Question is why Ist this Query is taking even more than 5 times the time taken by 3rd Query above !! – Abhishek Sagar May 5 '12 at 11:15
ok, after about much awaiting, for IInd Query i recieves the following error message : "out of memory for query result" and query execution terminated. Can somebosy throw light on this ? – Abhishek Sagar May 5 '12 at 11:25

Just a few thoughts on your problem:

st_distance as well as st_area are not able to use indices. This is because both functions can not be reduced to questions like "Is a within b?" or "Do a and b overlap?". Even more concrete: GIST-indices can only operate on the bounding boxes of two objects.

For more information on this you just could look in the postgis manual, which states an example with st_distance and how the query could be improved to perform better.

However, this does not solve your k-nearest-neighbour-problem. For that, right now I do not have a good idea how to improve the performance of the query. The only chance I see would be assuming that the k nearest neighbors are always in a distance of below x meters. Then you could use a similar approach as done in the postgis manual.

Your second query could be speeded up a bit. Currently, you compute the area for each object in table 1 as often as table has rows - the strategy is first to join the data and then select based on that function. You could reduce the count of area computations significantly be precomputing the area:

``````WITH polygonareas AS (
SELECT gid, the_geom, st_area(the_geom) AS area
FROM polygons
)
SELECT g1.gid, g2.gid
FROM polygonareas as g1 , polygonareas as g2
WHERE g1.area > g2.area;
``````

Your third query can be significantly optimized using bounding boxes: When the bounding boxes of two objects do not overlap, there is no way the objects do. This allows the usage of a given index and thus a huge performance gain.

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Since late September 2011, PostGIS has supported indexed nearest neighbor queries via a special operator(s) usable in the ORDER BY clause:

``````SELECT name, gid
FROM geonames
ORDER BY geom <-> st_setsrid(st_makepoint(-90,40),4326)
LIMIT 10;
``````

...will return the 10 objects whose `geom` is nearest `-90,40` in a scalable way. A few more details (options and caveats) are in that announcement post and use of the <-> and the <#> operators is also now documented in the official PostGIS 2.0 reference. (The main difference between the two is that `<->` compares the shape centroids and `<#>` compares their boundaries — no difference for points, other shapes choose what is appropriate for your queries.)

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A major caveat of these two operators, as it says on the linked postgis reference pages, is that the spatial index will only kick in if one of the geometries is a constant, as in your st_makepoint in the example. This means you can't use these operators with efficient index usage to answer the OP question which involves finding all geometries A near some other set of geometries B. – John Barça Jan 28 '14 at 8:09
Ah, good point. Thanks for raising it. So is @Stefan's answer the "correct" one then, just needing a bit more detail and updated link(s)? – natevw Jan 28 '14 at 21:42

What you may need is the KNN index which is hopefully available soon in PostGIS 2.x and PostgreSQL 9.1: See http://blog.opengeo.org/tag/knn/

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Assuming you have p point and g polygons, your original query:

``````SELECT g1.gid, g2.gid FROM points as g1, polygons g2
WHERE g1.gid <> g2.gid
ORDER BY g1.gid, ST_Distance(g1.the_geom,g2.the_geom)
LIMIT k;
``````

Is returning the k nearest neighbours in the p x g set. The query may be using indexes, but it still has to order the entire p x g set to find the k rows with the smallest distance. What you instead want is the following:

``````SELECT g1.gid,
(SELECT g2.gid FROM polygons g2
--prevents you from finding every nearest neighbour twice
WHERE g1.gid < g2.gid
--ORDER BY gid is erroneous if you want to limit by the distance
ORDER BY ST_Distance(g1.the_geom,g2.the_geom)
LIMIT k)
FROM points as g1;
``````
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