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I have a sequence of intermittently spaced GPS coordinates with timestamps. I'm using PostGIS to render them onto a map canvas. To render them, the points need to be aggregated into lines using the ST_MakeLine() aggregate function in PostGIS, leaving gaps on the map where GPS data is missing. The data does not necessarily arrive in order from the devices.

An example sequence looks like this:

ID | Timestamp              | Location
1  | 2013-11-12 03:31:31    | (1,2)   
3  | 2013-11-12 03:31:34    | (1,3)   
7  | 2013-11-12 03:31:37    | (1,4)  
4  | 2013-11-12 03:31:43    | (1,5)   
2  | 2013-11-12 03:31:55    | (1,6)   
16 | 2013-11-12 03:33:22    | (1,7)   
22 | 2013-11-12 03:33:28    | (1,8)   
18 | 2013-11-12 03:33:32    | (1,9)   

The conditions for grouping are:

  • If the gap to the previous record is > 30 seconds OR
  • If the time since the first record in this group < 15 seconds. In this case, the point belongs in both groups (i.e. one group ends with this point, the next group begins)

The ST_MakeLine() function in PostGIS will produce the necessary line, the problem is properly grouping the lines.

Based on that, the above would produce:

Start               | End                 | ST_MakeLine(?)
2013-11-12 03:31:31 | 2013-11-12 03:31:43 | LINE((1,2),(1,3),(1,4),(1,5))
2013-11-12 03:31:43 | 2013-11-12 03:31:55 | LINE((1,5),(1,6))
2013-11-12 03:33:22 | 2013-11-12 03:33:32 | LINE((1,7),(1,8),(1,9))

This seems to be a variation on the "island and gaps" problem referenced by most other "contiguous select" questions, but with the twist that the sequencing is not regular, and thus, those solutions don't seem to apply.

I'm currently processing the data outside SQL to generate the sequences, but that incurs several round-trips that I'd like to avoid if I can.

SQLFiddle of the sample data:!15/1ff93/7

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Are you looking for a simple query or are you open to PL/pgSQL (With PL/pgSQL you can group a block of computation and a series of queries inside the database server, thus having the power of a procedural language and the ease of use of SQL, but with considerable savings of client/server communication overhead.) See – CharityAbbott Jan 5 '14 at 1:48
A standalone query is preferable, but a procedure would work in a pinch. Performance is the deciding factor. – SkiTrails Jan 5 '14 at 1:54
Are your conditions for grouping correct? I'm having problems seeing ID 1 and ID 3 in the same group if the conditions both require > so many seconds. Do you mean <? – CharityAbbott Jan 5 '14 at 2:00
Yes, < would read better, updated. The intent is that sequential groups of coordinates should be broken up into 15 second blocks, with a shared end/start coordinate ((1,5) in the example). – SkiTrails Jan 5 '14 at 2:03
Unsure quite what you mean with the second rule. If you have data coming in (say) every 1s, then it would produce two-element line segments because 1s is < 15s, so you'd have (a,b), (c,d), (c,d), (e,f), (e,f), (g,h), etc. Is that what you want? It doesn't seem to be from the example. – Craig Ringer Jan 5 '14 at 7:54

1 Answer 1

I ended up taking a two-part approach to solve this:

  • A stored procedure that appends a "group id" to each row
  • A simple aggregating query

Performance is significantly better than doing it external to the database (45s vs 2.8s)

So, given a table created by the following:

CREATE TABLE locations (
  location GEOMETRY(Point,4326)

The following function will iterate over the table and append a "group id" to each row:

CREATE FUNCTION group_locations(
  IN max_time_gap INTERVAL, 
  IN max_line_duration INTERVAL)
  out_geom GEOMETRY, 
  out_group_id INTEGER) AS
  r locations%ROWTYPE;
  gid INTEGER;
  lastts TIMESTAMP;
  startts TIMESTAMP;
  gid := 0;
  lastts := NULL;
  startts := NULL;

  FOR r IN 
    SELECT * FROM locations 
    WHERE ts > scan_start_time
    out_ts := r.ts;
    out_geom := r.location;
    out_group_id := gid;

    IF startts IS NULL OR lastts IS NULL THEN
      startts := r.ts;
    ELSIF r.ts - lastts >= max_time_gap THEN
      -- If we've hit a space in our data, bump the group id up
      -- and remember the start time for this group
      gid := gid+1;
      out_group_id = gid;
      startts := r.ts;
    ELSIF r.ts - startts >= max_line_duration THEN
      -- First, emit the current row to end the group
      -- Then, bump the group id and start time, we will
      -- re-emit the same row with a higher group_id below
      gid := gid+1;
      out_group_id := gid;
      startts := r.ts;
    END IF;
    -- Emit the current row with the group_id appended
    lastts := r.ts;

If run over my example data, the result is:

out_ts              | out_geom | out_group_id
2013-11-12 03:31:31 | (1,2)    | 0
2013-11-12 03:31:34 | (1,3)    | 0
2013-11-12 03:31:37 | (1,4)    | 0
2013-11-12 03:31:43 | (1,5)    | 0
2013-11-12 03:31:43 | (1,5)    | 1
2013-11-12 03:31:55 | (1,6)    | 1
2013-11-12 03:33:22 | (1,7)    | 2
2013-11-12 03:33:28 | (1,8)    | 2
2013-11-12 03:33:32 | (1,9)    | 2

Then, the output of this procedure can be simply grouped and aggregated:

SELECT ST_Makeline(out_geom) AS geom,MIN(out_ts) AS start,MAX(out_ts) AS finish
FROM group_locations(
       NOW() AT TIME ZONE 'UTC' - '10 days'::INTERVAL,  -- how far back to look
       '30 seconds'::INTERVAL,  -- maximum gap allowed before creating a break
       '15 seconds'::INTERVAL  -- maximum duration allowed before forcing a break
GROUP BY out_group_id;

The function executes quite quickly, at least an order of magnitude better than doing the same logic externally. The downside is that the results are not indexed, so directly using them in further queries is not particularly performant. It runs in about O(2N) time, the first scan to append the group ID, then the second scan to aggregate.

My final solution executes the above every couple of minutes to refresh a "calculated_tracks" table which is fully indexed.

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