An interactive map paints geographic maps sourced from a 3rd party provider, with several optional overlay layers for data display. It is an excellent choice for displaying large amounts of geo-based information in relevant detail.
The following steps demonstrate how to create an interactive map visual on the dataset
National Geographic Features
. The data for this dataset came from the United States Board on Geographic Names; we recommend choosing the download of the
AllStates zip file because it is easier to process. Additionally, you may wish to use
Feature Class Definitions and State Abbreviations to supplement the dataset.
National Geographic Features
dataset; see Creating Visuals.In the visuals menu, find and click Interactive Map (row 5, column 2).
Note that the shelves of the visual changed. They are now Geo, Measures, Dimensions, Tooltips, and Filters.
The only mandatory shelf for interactive map visuals is Geo.
Populate the shelves from the available fields (Dimensions, Measures, and so on) in the Data menu.
Under Measures, select prim-lat-dec
and drag it over the
Geo shelf on the main part of the screen. Drop to add it to
the shelf.
Cast this to the appropriate Geo Type: click the filed on the shelf, and in the Field Properties menu, select Change Type, and select Latitude.
Under Measures, select prim_long_dec
, and drag it over
the Geo shelf on the main part of the screen. Drop to add it to
the shelf.
Cast this to the appropriate Geo Type: click the filed on the shelf, and in the Field Properties menu, select Change Type, and select Logitude.
Notice that the two converted measurements have a (globe) icon tag. This indicates that these feels can be 'understood' as geographic fields.
See Change Type and Geo Datatype.
Under Dimensions, select feature_id
, and drag it over the
Measures shelf. Drop it on the shelf.
Change the aggregation from sum(feature Id)
to count(Feature
Id)
, by selecting Aggregates
Count.
If you leave the Measures shelf empty, the system uses the value
of 1
, and does not require an aggregate.
Add the following fields to the Filters shelf:
feature_class
, set to Woodssate_alpha
, set to CAClick Refresh Visual.
The visual appears.
The one we have here is a Google INEGI map.
Notice that in this representation, there is noticeable overlap on the Heatmap Layer. However, you can see the boundaries of each region by hovering the pointer over a section of the map. The total count of measurements in each region is in the circle inside the region. This comes from the Cluster Layer. Both the Heatmap and Cluster layers are on my default.
To see more detail, manipulate the map through magnification changes. You can also click on the map and manually 'pan' it to the area of interest. The following image shows that the regions automatically adjust into smaller sections, and you can see both greater detail and more individual 'totals'.
The 'interactive' part of this visual is that after clicking on a region to zoom-in and reposition, to the level of an individual marker, you can enable click behavior.
California Woods
.At the top left corner of the Visual Designer, click Save.
There are many interesting visualization options. To change the tile layer, or the base map from Google to Mapbox, see Changing Tile Layers for Interactive Maps. To configure the various layer options, see these articles: