# Using a Geo Distance Function on ELKI

I am using ELKI to mine some geospatial data (lat,long pairs) and I am quite concerned on using the right data types and algorithms. On the parameterizer of my algorithm, I tried to change the default distance function by a geo function (LngLatDistanceFunction, as I am using x,y data) as bellow:

``````params.addParameter (DISTANCE_FUNCTION_ID,  geo.LngLatDistanceFunction.class);
``````

However the results are quite surprising: it creates clusters of a repeated point, such as the example bellow:

(2.17199922, 41.38190043, NaN), (2.17199922, 41.38190043, NaN), (2.17199922, 41.38190043, NaN), (2.17199922, 41.38190043, NaN), (2.17199922, 41.38190043, NaN), (2.17199922, 41.38190043, NaN), (2.17199922, 41.38190043, NaN), (2.17199922, 41.38190043, NaN), (2.17199922, 41.38190043, NaN), (2.17199922, 41.38190043, NaN)]

This is an image of this example.

Whether I used a non-geo distance (for instance manhattan):

``````params.addParameter (DISTANCE_FUNCTION_ID,  geo.minkowski.ManhattanDistanceFunction.class);
``````

I wonder if there is something wrong with my code.

I am running the algorithm directly on the db, like this:

``````         Clustering<Model> result = dbscan.run(db);
``````

And then iterating over the results in a loop, while I construct the convex hulls:

``````   for (de.lmu.ifi.dbs.elki.data.Cluster<?> cl : result.getAllClusters()) {
if (!cl.isNoise()){
Coordinate[] ptList=new Coordinate[cl.size()];
int ct=0;

for (DBIDIter iter = cl.getIDs().iter();
ptList[ct]=dataMap.get(DBIDUtil.toString(iter));
++ct;
}

GeoPolygon poly=getBoundaryFromCoordinates(ptList);
if (poly.getCoordinates().getGeometryType()==
"Polygon"){
out.write(poly.coordinates.toText()+"\n");
}
}
}
``````

To map each ID to a point, I use a hashmap, that I initialized when reading the database. The reason why I am adding this code, is because I suspect that I may doing something wrong regarding the structures that I am passing/reading to/from the algorithm. I thank you in advance for any comments that could help me to solve this. I find ELKI a very efficient and sophisticated library, but I have trouble to find examples that illustrate simple cases, like mine.

-

What is your `epsilon` value?
In your previous questions, you used `epsilon=0.008`. For geodetic distance, 0.008 meters = 8 millimeter.