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59 lines
3.4 KiB
Markdown
59 lines
3.4 KiB
Markdown
## Spatial Markov
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### CDB_SpatialMarkovTrend(subquery text, column_names text array)
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This function takes time series data associated with geometries and outputs likelihoods that the next value of a geometry will move up, down, or stay static as compared to the most recent measurement. For more information, read about [Spatial Dynamics in PySAL](https://pysal.readthedocs.io/en/v1.11.0/users/tutorials/dynamics.html).
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#### Arguments
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| Name | Type | Description |
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|------|------|-------------|
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| subquery | TEXT | SQL query that exposes the data to be analyzed (e.g., `SELECT * FROM real_estate_history`). This query must have the geometry column name `the_geom` and id column name `cartodb_id` unless otherwise specified in the input arguments. Tables in queries must exist in user's database (i.e., no CTEs at present) |
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| column_names | TEXT Array | Names of column that form the history of measurements for the geometries (e.g., `Array['y2011', 'y2012', 'y2013', 'y2014', 'y2015', 'y2016']`). |
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| num_classes (optional) | INT | Number of quantile classes to separate data into. |
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| weight type (optional) | TEXT | Type of weight to use when finding neighbors. Currently available options are 'knn' (default) and 'queen'. Read more about weight types in [PySAL's weights documentation](https://pysal.readthedocs.io/en/v1.11.0/users/tutorials/weights.html). |
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| num_ngbrs (optional) | INT | Number of neighbors if using k-nearest neighbors weight type. Defaults to 5. |
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| permutations (optional) | INT | Number of permutations to check against a random arrangement of the values in `column_name`. This influences the accuracy of the output field `significance`. Defaults to 99. |
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| geom_col (optional) | TEXT | The column name for the geometries. Defaults to `'the_geom'` |
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| id_col (optional) | TEXT | The column name for the unique ID of each geometry/value pair. Defaults to `'cartodb_id'`. |
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#### Returns
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A table with the following columns.
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| Column Name | Type | Description |
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|-------------|------|-------------|
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| trend | NUMERIC | The probability that the measure at this location will move up (a positive number) or down (a negative number) |
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| trend_up | NUMERIC | The probability that a measure will move up in subsequent steps of time |
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| trend_down | NUMERIC | The probability that a measure will move down in subsequent steps of time |
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| volatility | NUMERIC | A measure of the variance of the probabilities returned from the Spatial Markov predictions |
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| rowid | NUMERIC | id of the row that corresponds to the `id_col` (by default `cartodb_id` of the input rows) |
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#### Notes
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* Rows will null values will be omitted from this analysis. To ensure they are added to the analysis, fill the null-valued cells with an appropriate value such as the mean of a column, the mean of the most recent two time steps, etc.
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* Input query can only accept tables (datasets) in the users database account. Common table expressions (CTEs) do not work as an input unless specified in the `subquery` parameter.
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#### Example Usage
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```sql
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SELECT
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c.cartodb_id,
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c.the_geom,
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c.the_geom_webmercator,
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m.trend,
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m.trend_up,
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m.trend_down,
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m.volatility
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FROM
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cdb_crankshaft.CDB_SpatialMarkovTrend(
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'SELECT * FROM nyc_real_estate'
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Array['m03y2009', 'm03y2010', 'm03y2011',
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'm03y2012', 'm03y2013', 'm03y2014',
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'm03y2015','m03y2016']) As m
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JOIN nyc_real_estate As c
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ON c.cartodb_id = m.rowid;
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```
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