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Reverse geocoding and feature types"
In arcgeocoder: Geocoding with the 'ArcGIS' REST API Service
Adapted from
https://developers.arcgis.com/rest/geocode/api-reference/geocoding-reverse-geocode.htm
Reverse geocode details
The purpose of reverse geocoding is to answer the question: What's near this
location? To answer this question, the reverseGeocode operation provided by
the ArcGIS REST API returns the most relevant feature near an input location
based on a prioritized hierarchy of feature types.
The hierarchy is summarized in the table below, ordered by descending priority.
Unless otherwise noted, each feature type is only returned when the distance
between the input location and the feature is within the tolerance specified in
the Search Tolerance column.
::: {#table1}
:::
| Feature type | Search tolerance | Comments |
|--------------------------------------------------------------|------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------------|
| StreetInt | 10 meters | Intersections are only returned when featuretypes = "StreetInt" is included in the request. |
| StreetAddress (near), DistanceMarker, or StreetName | 3 meters | Candidates of type StreetName are only returned if featureTypes = "streetName" is included in the request. |
| POI centroid | 25 meters | A business or landmark that can be represented by a point. |
| Subaddress | 10 meters | Subaddress candidates, which can be features such as apartments or floors in a building, maybe not being returned under certain conditions. |
| PointAddress | 50 meters | A PointAddress match is not returned if it is on the opposite side of the street as the input location, even if it is within 50 meters of the location. |
| StreetAddress (distant), DistanceMarker, or StreetName | 100 meters | Candidates of type StreetName are only returned if featuretypes = "StreetName" is included in the request. |
| POI area | within boundary | A business or landmark that can be represented by an area, such as a large park or university. Not available in all countries. |
| Postal or Locality area | within boundary | If the input location intersects multiple boundaries, the feature with the smallest area is returned. |
: Table 1: Adapted from ArcGIS REST API reverseGeocode
In arcgeocoder, this hierarchy is implemented in arc_reverse_geo(),
specifically through the featuretypes parameter. The default value
(featuretypes = NULL) does not include the parameter in the API call. In this
case, the hierarchy presented in the previous table would apply.
It is possible to narrow down the output of the query to a specific feature type
or a list of feature types.The possible values supported for this parameter are:
"StreetInt""DistanceMarker""StreetAddress""StreetName""POI""Subaddress""PointAddress""Postal""Locality"
As mentioned, is to possible to include several feature types. If more than one
value is specified for the parameter, the values must be separated by a comma,
with no spaces after the comma.
single featuretypes value
arc_reverse_geo(..., featuretypes = "PointAddress")
multiple featuretypes value
arc_reverse_geo(..., featuretypes = c("PointAddress", "StreetAddress"))
Examples
In the following examples, we would provide different examples for better
understanding.
library(arcgeocoder)
library(dplyr)
Example 1: Match to POI centroid returned
In this example, we do not provide any value to the featuretypes parameter.
This input location is within the search tolerance of both POI and
PointAddress features, but a match to the POI centroid is returned because
it has a higher priority (see Table 1). Note that the output
field Addr_type indicates the type of feature.
example_x <- -117.203741
example_y <- 40.95029
api_poi <- arc_reverse_geo(
x = example_x, y = example_y,
langcode = "EN", full_results = TRUE, verbose = TRUE
)
api_poi %>%
select(x, y, address, lon, lat, Addr_type) %>%
knitr::kable()
| x| y|address | lon| lat|Addr_type |
|---------:|--------:|:------------------------|---------:|--------:|:---------|
| -117.2037| 40.95029|89414, Golconda, NV, USA | -117.2037| 40.95029|Postal |
Example 2: Locality match returned
api_local <- arc_reverse_geo(
x = example_x, y = example_y,
featuretypes = "Locality",
langcode = "EN", full_results = TRUE, verbose = TRUE
)
api_local %>%
select(x, y, address, lon, lat, Addr_type) %>%
knitr::kable()
| x| y|address | lon| lat|Addr_type |
|---------:|--------:|:------------------------|---------:|--------:|:---------|
| -117.2037| 40.95029|Humboldt County, NV, USA | -117.2037| 40.95029|Locality |
Example 3: multiple values
When multiple values are included in the API call, the hierarchy explained in
Table 1 would still be applied on the requested featuretypes.
api_multiple <- arc_reverse_geo(
x = example_x, y = example_y,
featuretypes = c("Locality", "StreetInt", "StreetAddress"),
langcode = "EN", full_results = TRUE, verbose = TRUE
)
api_multiple %>%
select(x, y, address, lon, lat, Addr_type) %>%
knitr::kable()
| x| y|address | lon| lat|Addr_type |
|---------:|--------:|:------------------------|---------:|--------:|:---------|
| -117.2037| 40.95029|Humboldt County, NV, USA | -117.2037| 40.95029|Locality |
Example 4: No results for specific featuretypes
In the following example we present a case where only certain featuretypes are
near the requested location. In this case, when reverse geocoding the North Pole
the API would return a Locality but no StreetAddress is found.
When it is not possible to return results, arc_reverse_geo() returns an empty
tibble.
# North Pole
npole <- arc_reverse_geo(x = 0, y = 90, langcode = "EN", full_results = TRUE)
npole %>%
select(x, y, address, lon, lat, Addr_type) %>%
knitr::kable()
| x| y|address | lon| lat|Addr_type |
|--:|--:|:--------------|---:|---:|:---------|
| 0| 90|Ozero Shybyndy | 0| 90|POI |
# But no StreetAddress
npole2 <- arc_reverse_geo(
x = 0, y = 90, langcode = "EN", full_results = TRUE,
featuretypes = "StreetAddress"
)
npole2 %>%
knitr::kable()
| x| y|address |
|--:|--:|:-------|
| 0| 90|NA |
Conclusion
The API would return different results for the same x,y values depending on
the value of featuretypes. By using featuretypes = NULL the feature type
returned would depend on the hierarchy explained in Table 1.
Depending on the location, the featuretype filter may not return results,
hence for general purposes using featuretypes = NULL is safer.
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Adapted from https://developers.arcgis.com/rest/geocode/api-reference/geocoding-reverse-geocode.htm
Reverse geocode details
The purpose of reverse geocoding is to answer the question: What's near this
location? To answer this question, the reverseGeocode operation provided by
the ArcGIS REST API returns the most relevant feature near an input location
based on a prioritized hierarchy of feature types.
The hierarchy is summarized in the table below, ordered by descending priority. Unless otherwise noted, each feature type is only returned when the distance between the input location and the feature is within the tolerance specified in the Search Tolerance column.
::: {#table1} :::
| Feature type | Search tolerance | Comments |
|--------------------------------------------------------------|------------------|-----------------------------------------------------------------------------------------------------------------------------------------------------------|
| StreetInt | 10 meters | Intersections are only returned when featuretypes = "StreetInt" is included in the request. |
| StreetAddress (near), DistanceMarker, or StreetName | 3 meters | Candidates of type StreetName are only returned if featureTypes = "streetName" is included in the request. |
| POI centroid | 25 meters | A business or landmark that can be represented by a point. |
| Subaddress | 10 meters | Subaddress candidates, which can be features such as apartments or floors in a building, maybe not being returned under certain conditions. |
| PointAddress | 50 meters | A PointAddress match is not returned if it is on the opposite side of the street as the input location, even if it is within 50 meters of the location. |
| StreetAddress (distant), DistanceMarker, or StreetName | 100 meters | Candidates of type StreetName are only returned if featuretypes = "StreetName" is included in the request. |
| POI area | within boundary | A business or landmark that can be represented by an area, such as a large park or university. Not available in all countries. |
| Postal or Locality area | within boundary | If the input location intersects multiple boundaries, the feature with the smallest area is returned. |
: Table 1: Adapted from ArcGIS REST API reverseGeocode
In arcgeocoder, this hierarchy is implemented in arc_reverse_geo(),
specifically through the featuretypes parameter. The default value
(featuretypes = NULL) does not include the parameter in the API call. In this
case, the hierarchy presented in the previous table would apply.
It is possible to narrow down the output of the query to a specific feature type or a list of feature types.The possible values supported for this parameter are:
"StreetInt""DistanceMarker""StreetAddress""StreetName""POI""Subaddress""PointAddress""Postal""Locality"
As mentioned, is to possible to include several feature types. If more than one value is specified for the parameter, the values must be separated by a comma, with no spaces after the comma.
single featuretypes value
arc_reverse_geo(..., featuretypes = "PointAddress")
multiple featuretypes value
arc_reverse_geo(..., featuretypes = c("PointAddress", "StreetAddress"))
Examples
In the following examples, we would provide different examples for better understanding.
library(arcgeocoder) library(dplyr)
Example 1: Match to POI centroid returned
In this example, we do not provide any value to the featuretypes parameter.
This input location is within the search tolerance of both POI and
PointAddress features, but a match to the POI centroid is returned because
it has a higher priority (see Table 1). Note that the output
field Addr_type indicates the type of feature.
example_x <- -117.203741 example_y <- 40.95029 api_poi <- arc_reverse_geo( x = example_x, y = example_y, langcode = "EN", full_results = TRUE, verbose = TRUE ) api_poi %>% select(x, y, address, lon, lat, Addr_type) %>% knitr::kable()
| x| y|address | lon| lat|Addr_type | |---------:|--------:|:------------------------|---------:|--------:|:---------| | -117.2037| 40.95029|89414, Golconda, NV, USA | -117.2037| 40.95029|Postal |
Example 2: Locality match returned
api_local <- arc_reverse_geo( x = example_x, y = example_y, featuretypes = "Locality", langcode = "EN", full_results = TRUE, verbose = TRUE ) api_local %>% select(x, y, address, lon, lat, Addr_type) %>% knitr::kable()
| x| y|address | lon| lat|Addr_type | |---------:|--------:|:------------------------|---------:|--------:|:---------| | -117.2037| 40.95029|Humboldt County, NV, USA | -117.2037| 40.95029|Locality |
Example 3: multiple values
When multiple values are included in the API call, the hierarchy explained in
Table 1 would still be applied on the requested featuretypes.
api_multiple <- arc_reverse_geo( x = example_x, y = example_y, featuretypes = c("Locality", "StreetInt", "StreetAddress"), langcode = "EN", full_results = TRUE, verbose = TRUE ) api_multiple %>% select(x, y, address, lon, lat, Addr_type) %>% knitr::kable()
| x| y|address | lon| lat|Addr_type | |---------:|--------:|:------------------------|---------:|--------:|:---------| | -117.2037| 40.95029|Humboldt County, NV, USA | -117.2037| 40.95029|Locality |
Example 4: No results for specific featuretypes
In the following example we present a case where only certain featuretypes are
near the requested location. In this case, when reverse geocoding the North Pole
the API would return a Locality but no StreetAddress is found.
When it is not possible to return results, arc_reverse_geo() returns an empty
tibble.
# North Pole npole <- arc_reverse_geo(x = 0, y = 90, langcode = "EN", full_results = TRUE) npole %>% select(x, y, address, lon, lat, Addr_type) %>% knitr::kable()
| x| y|address | lon| lat|Addr_type | |--:|--:|:--------------|---:|---:|:---------| | 0| 90|Ozero Shybyndy | 0| 90|POI |
# But no StreetAddress npole2 <- arc_reverse_geo( x = 0, y = 90, langcode = "EN", full_results = TRUE, featuretypes = "StreetAddress" ) npole2 %>% knitr::kable()
| x| y|address | |--:|--:|:-------| | 0| 90|NA |
Conclusion
The API would return different results for the same x,y values depending on
the value of featuretypes. By using featuretypes = NULL the feature type
returned would depend on the hierarchy explained in Table 1.
Depending on the location, the featuretype filter may not return results,
hence for general purposes using featuretypes = NULL is safer.
Try the arcgeocoder package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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