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### Moran's I
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## Name
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CDB_AreasOfInterest -- returns a table with a cluster/outlier classification, the significance of a classification, an autocorrelation statistic (Local Moran's I), and the geometry id for each geometry in the original dataset.
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## Synopsis
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```sql
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table(numeric moran_val, text quadrant, numeric significance, int ids, numeric column_values) CDB_AreasOfInterest(text query, text column_name)
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table(numeric moran_val, text quadrant, numeric significance, int ids, numeric column_values) CDB_AreasOfInterest(text query, text column_name, int permutations, text geom_column, text id_column, text weight_type, int num_ngbrs)
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```
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## Description
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CDB_AreasOfInterest is a table-returning function that classifies the geometries in a table by an attribute and gives a significance for that classification. This information can be used to find "Areas of Interest" by using the correlation of a geometry's attribute with that of its neighbors. Areas can be clusters, outliers, or neither (depending on which significance value is used).
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Inputs:
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* `query` (required): an arbitrary query against tables you have access to (e.g., in your account, shared in your organization, or through the Data Observatory). This string must contain the following columns: an id `INT` (e.g., `cartodb_id`), geometry (e.g., `the_geom`), and the numeric attribute which is specified in `column_name`
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* `column_name` (required): column to perform the area of interest analysis tool on. The data must be numeric (e.g., `float`, `int`, etc.)
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* `permutations` (optional): used to calculate the significance of a classification. Defaults to 99, which is sufficient in most situations.
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* `geom_column` (optional): the name of the geometry column. Data must be of type `geometry`.
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* `id_column` (optional): the name of the id column (e.g., `cartodb_id`). Data must be of type `int` or `bigint` and have a unique condition on the data.
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* `weight_type` (optional): the type of weight used for determining what defines a neighborhood. Options are `knn` or `queen`.
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* `num_ngbrs` (optional): the number of neighbors in a neighborhood around a geometry. Only used if `knn` is chosen above.
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Outputs:
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* `moran_val`: underlying correlation statistic used in analysis
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* `quadrant`: human-readable interpretation of classification
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* `significance`: significance of classification (closer to 0 is more significant)
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* `ids`: id of original geometry (used for joining against original table if desired -- see examples)
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* `column_values`: original column values from `column_name`
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Availability: crankshaft v0.0.1 and above
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## Examples
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```sql
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SELECT
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t.the_geom_webmercator,
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t.cartodb_id,
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aoi.significance,
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aoi.quadrant As aoi_quadrant
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FROM
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observatory.acs2013 As t
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JOIN
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crankshaft.CDB_AreasOfInterest('SELECT * FROM observatory.acs2013',
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'gini_index')
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```
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## API Usage
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Example
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```text
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http://eschbacher.cartodb.com/api/v2/sql?q=SELECT * FROM crankshaft.CDB_AreasOfInterest('SELECT * FROM observatory.acs2013','gini_index')
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```
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Result
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```json
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{
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time: 0.120,
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total_rows: 100,
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rows: [{
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moran_vals: 0.7213,
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quadrant: 'High area',
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significance: 0.03,
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ids: 1,
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column_value: 0.22
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},
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{
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moran_vals: -0.7213,
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quadrant: 'Low outlier',
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significance: 0.13,
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ids: 2,
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column_value: 0.03
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},
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...
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]
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}
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```
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## See Also
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crankshaft's areas of interest functions:
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* [CDB_AreasOfInterest_Global]()
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* [CDB_AreasOfInterest_Rate_Local]()
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* [CDB_AreasOfInterest_Rate_Global]()
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PostGIS clustering functions:
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* [ST_ClusterIntersecting](http://postgis.net/docs/manual-2.2/ST_ClusterIntersecting.html)
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* [ST_ClusterWithin](http://postgis.net/docs/manual-2.2/ST_ClusterWithin.html)
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-- removing below, working into above
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#### What is Moran's I and why is it significant for CartoDB?
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#### What is Moran's I and why is it significant for CartoDB?
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24
doc/docs_template.md
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## Name
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## Synopsis
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## Description
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Availability: v...
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## Examples
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```SQL
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-- example of the function in use
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SELECT cdb_awesome_function(the_geom, 'total_pop')
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FROM table_name
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```
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## API Usage
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_asdf_
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## See Also
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_Other function pages_
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