15

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.

3
  • 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, 2012 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 !! May 5, 2012 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 ? May 5, 2012 at 11:25

5 Answers 5

19

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.)

2
  • 3
    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. Jan 28, 2014 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, 2014 at 21:42
9

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.

5

You can do it with KNN index and lateral join.

SELECT v.gid, v2.gid,st_distance(v.the_geom, v2.the_geom)
  FROM geonames v, 
       lateral(select * 
                 from geonames v2
                where v2.id<>v.id
                ORDER BY v.the_geom <-> v2.the_geom LIMIT 10) v2
where v.gid in (...) - or other filtering condition
1

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/

0

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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