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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);

,the output is much more reasonable

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(); 
                                iter.valid(); iter.advance()) {
                                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.

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1 Answer 1

up vote 2 down vote accepted

What is your epsilon value?

Geographic distance is in meters in ELKI (if I recall correctly); Manhattan distance would be in latitude + longitude degrees. For obvious reasons, these live on very different scales, and therefore you need to choose a different epsilon value.

In your previous questions, you used epsilon=0.008. For geodetic distance, 0.008 meters = 8 millimeter.

At epsilon = 8 millimeter, I am not surprised if the clusters you get consist only of duplicated coordinates. Any chance that above coordinates do exist multiple times in your data set?

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You are totally right. The change from degrees to meters (a much more meaningfull unit, anyway) leads to the correct results. It would be really helpfull if you could indicate the distance unit in the documentation; by seeing the input coordinates as lat,long, I was tricked to think that the unit would be degrees... many thanks for your answer –  doublebyte May 19 at 8:02
    
Thank you for the feedback. I have improved the documentation. And of course I hope to find the time of writing a tutorial; all the way to visualizing points using convex hulls or alpha shapes, with KML and Google Earth. But I'm always very busy. –  Erich Schubert May 19 at 8:39

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