Python Geospatial Analysis Essentials -

import geopandas as gpd world = gpd.read_file(gpd.datasets.get_path('naturalearth_lowres')) What is this? print(type(world)) # <class 'geopandas.geodataframe.GeoDataFrame'> print(world.head()) print(world.geometry.name) # 'geometry'

Next week, I'll cover spatial autocorrelation (aka: "Is that cluster real or random?"). Until then, map something interesting. What geospatial project are you working on? Let me know in the comments below. Python GeoSpatial Analysis Essentials

from shapely.geometry import Point, LineString, Polygon nyc = Point(-74.006, 40.7128) Create a line route = LineString([(-74.006, 40.7128), (-73.935, 40.7306)]) Create a polygon (bounding box around NYC) bbox = Polygon([(-74.05, 40.68), (-73.95, 40.68), (-73.95, 40.75), (-74.05, 40.75)]) Check if point is inside polygon print(bbox.contains(nyc)) # True Step 4: The Magic of Spatial Joins This is where Geopandas shines. Let's find all countries that contain a specific point. import geopandas as gpd world = gpd

# Our point of interest (somewhere in Brazil) point_of_interest = Point(-55.0, -10.0) We'll put the point into a tiny GeoDataFrame point_gdf = gpd.GeoDataFrame(geometry=[point_of_interest], crs=world.crs) "within" joins where the point is inside the polygon result = gpd.sjoin(point_gdf, world, how='left', predicate='within') What geospatial project are you working on