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Geospatial Database

CrateDB is an open source, multi-model and distributed database that offers high performance, scalability and flexibility. Store, analyze and track the location of people and objects in real-time, all with SQL.
 

Geospatial data queries with SQL

Hyper-fast. Results in milliseconds.

        

/* Based on NYC taxi trips, this query lists the latest 5 trips starting 
   within 500m of the Times Square */
SELECT pickup_datetime AS "time",
       trip_distance,
       latitude(pickup_location) latitude,
       longitude(pickup_location) longitude
FROM nyc_taxi.trips
WHERE distance('POINT(-73.985130 40.758896)'::GEO_POINT, pickup_location) < 500
      AND pickup_datetime BETWEEN 1451602800000 AND 1483138800000
ORDER BY time DESC
LIMIT 5;
        

+---------------+---------------+--------------------+--------------------+
|          time | trip_distance |           latitude |          longitude |
+---------------+---------------+--------------------+--------------------+
| 1467331195000 |          3.0  | 40.76302719116211  | -73.98388671875    |
| 1467331192000 |          1.8  | 40.761539459228516 | -73.98821258544922 |
| 1467331192000 |          4.59 | 40.75526809692383  | -73.98706817626953 |
| 1467331191000 |          3.6  | 40.75738525390625  | -73.99018096923828 |
| 1467331183000 |          1.7  | 40.75679016113281  | -73.98326110839844 |
+---------------+---------------+--------------------+--------------------+
        

/*
 * Based on NYC taxi trips, this query calculates:
 * - the distance of a given dropoff location to a fixed point of interest,
 *   partitioned in buckets of 50 meters each
 * - the average trip distance in kilometers within that partition
 * - the number of trips within that partition
 */
SELECT floor(
         distance(t.dropoff_location, 'POINT(-73.984 40.758)') / 50
       ) * 50 AS point_distance,
       avg(
         distance(t.pickup_location, t.dropoff_location) / 1000.0
       ) AS trip_distance,
       count(*) AS trips
FROM nyc_taxi.trips t
WHERE t.pickup_month = 1451606400000
GROUP BY 1
ORDER BY 1 ASC;
        

+----------------+---------------------------+--------+
| point_distance |             trip_distance |  trips |
+----------------+---------------------------+--------+
|              0 |    4.183248580260856      |   2258 |
|             50 |    3.5389173023149585     |  10891 |
|            100 |    2.973617177658283      |  23798 |
|            150 |    2.8757472450827946     |  41841 |
|            200 |    2.936262490313057      |  44880 |
|            250 |    2.901378357605571      |  44918 |
|            300 |    2.7757565505864257     |  49662 |
|            350 |    2.6239797352885708     |  57803 |
|            400 |    2.822579512102226      |  73603 |
|            450 |    2.5346381484458105     |  79051 |
|            500 |    2.4982467856661392     |  88705 |
|            550 |    2.613586563537282      |  93082 |
|            600 |    2.6103083633519786     |  98527 |
|            650 |    2.5381838408225286     | 113023 |
|            700 |    2.537684333523469      | 125640 |
|            750 |    2.5883437771402007     | 127099 |
|            800 |    2.617847584473263      | 119027 |
|            850 |    2.554740996422641      | 132532 |
|            900 |    2.499970010565691      | 164115 |
|            950 |    2.612569696294771      | 181091 |
|           1000 |    2.5512554347843093     | 152102 |
+----------------+---------------------------+--------+
        

/* Based on NYC taxi trips, this query returns the number 
   of trips per day with the region of the New York 
   Central Park as destination */
SELECT date_bin('24 hour'::interval, pickup_datetime, 0) AS day, 
       count(*) AS trips
FROM nyc_taxi.trips
WHERE within(
        dropoff_location, 
        'POLYGON(
          (-73.97308900174315 40.764422448981996,
           -73.98192956265623 40.76812781417226,
           -73.9584064734938  40.80087951931638,
           -73.94982340464614 40.797240957024385,
           -73.97308900174315 40.764422448981996)
         )'
      ) 
    AND pickup_datetime BETWEEN 1417392000000 AND 1420070400000 
GROUP BY 1
ORDER BY 1;
        

+---------------+-------+
|           day | trips |
+---------------+-------+
| 1417392000000 |  5094 |
| 1417478400000 |  5580 |
| 1417564800000 |  5760 |
| 1417651200000 |  5970 |
| 1417737600000 |  5850 |
| 1417824000000 |  5472 |
| 1417910400000 |  5335 |
| 1417996800000 |  5573 |
| 1418083200000 |  5382 |
| 1418169600000 |  5484 |
| 1418256000000 |  6291 |
| 1418342400000 |  5953 |
| 1418428800000 |  5846 |
| 1418515200000 |  5177 |
| 1418601600000 |  5446 |
| 1418688000000 |  5639 |
| 1418774400000 |  6051 |
| 1418860800000 |  6161 |
| 1418947200000 |  6052 |
| 1419033600000 |  5695 |
| 1419120000000 |  4891 |
| 1419206400000 |  5050 |
| 1419292800000 |  4786 |
| 1419379200000 |  4637 |
| 1419465600000 |  2721 |
| 1419552000000 |  3789 |
| 1419638400000 |  4343 |
| 1419724800000 |  4048 |
| 1419811200000 |  4769 |
| 1419897600000 |  5126 |
| 1419984000000 |  5128 |
+---------------+-------+

Geospatial functions

With CrateDB geospatial functions, you can address those use cases easily:

  • Spatial count: find how many records are located within a specific area thanks to the within function.
  • Spatial distance: find the closest record thanks to the distance function.
  • Spatial overlap: find whether two areas overlap thanks to the within and intersects functions.

Geospatial data formats

Geopoints

CrateDB offers versatile support for geospatial data types. For storing geopoint data, there are two primary formats you can use:

  • Array Format: Geopoints can be represented as an array where the coordinates are in the format [longitude, latitude]. This array format provides a simple and straightforward way to store point locations.
  • WKT Format: CrateDB also supports the Well-Known Text (WKT) representation for geopoints. You can store geopoint data using the format: POINT(longitude latitude). This notation provides a standardized way to represent geospatial data.
Geoshapes

For storing more complex geospatial shapes, CrateDB offers the following formats:
  • GeoJSON Format: This is a popular format for encoding a variety of geographical data structures. It’s versatile and can represent simple points, lines, and polygons as well as more complex shapes.
  • WKT Formats: Apart from the POINT format, CrateDB supports a variety of Well-Known Text formats for geoshapes. Whether you’re storing polygons, lines, or multi-points, WKT offers a standard representation for each of these geospatial structures.
Geospatial-Webinar-Play

On-demand webinar

Working with geospatial data involves meeting challenges of variety and scale. This webinar will take you through everything you need to know about putting CrateDB to work with your geospatial data.

Geospatial data has a lot of points and generates a lot of data, that’s why you need great scalability. With CrateDB, you get scalable SQL support for geospatial data types and functions for geospatial applications such as fleet tracking, mapping, location analytics.

Location is important for many machine data analysis. For this reason, CrateDB can store and query geographical information using the geo_point and geo_shape data types. You can control geographic index precision and resolution for faster query results, and also run exact queries with scalar functions like intersects, within, and distance.

"CrateDB was the only geospatial database we found that could smoothly process data for our users and for our data science team. We fell in love with it immediately."
Kartik Venkatesh CTO Spatially Health Learn more
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"Most of the cars in our customers' fleets are in use almost 24 hours a day, and we need to store and analyse the massive amounts of data they generate in real time. We tried a few different SQL and NoSQL databases, and CrateDB offered the best combination of high performance, scalability and ease of use."
Mark Sutheran Founder Clickdrive.io Learn more
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Other resources on geospatial databases