1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
|
"""
========================
OpenStreetMap with OSMnx
========================
This example shows how to use OSMnx to download and model a street network
from OpenStreetMap, visualize centrality, and save the graph as a shapefile,
a GeoPackage, or GraphML.
OSMnx is a Python package to retrieve, model, analyze, and visualize
OpenStreetMap street networks as NetworkX MultiDiGraph objects. It can also
retrieve any other spatial data from OSM as geopandas GeoDataFrames. See
https://osmnx.readthedocs.io/ for OSMnx documentation and usage.
"""
import networkx as nx
import osmnx as ox
ox.config(use_cache=True, log_console=True)
# download street network data from OSM and construct a MultiDiGraph model
G = ox.graph_from_point((37.79, -122.41), dist=750, network_type="drive")
# impute edge (driving) speeds and calculate edge traversal times
G = ox.add_edge_speeds(G)
G = ox.add_edge_travel_times(G)
# you can convert MultiDiGraph to/from geopandas GeoDataFrames
gdf_nodes, gdf_edges = ox.graph_to_gdfs(G)
G = ox.graph_from_gdfs(gdf_nodes, gdf_edges, graph_attrs=G.graph)
# convert MultiDiGraph to DiGraph to use nx.betweenness_centrality function
# choose between parallel edges by minimizing travel_time attribute value
D = ox.utils_graph.get_digraph(G, weight="travel_time")
# calculate node betweenness centrality, weighted by travel time
bc = nx.betweenness_centrality(D, weight="travel_time", normalized=True)
nx.set_node_attributes(G, values=bc, name="bc")
# plot the graph, coloring nodes by betweenness centrality
nc = ox.plot.get_node_colors_by_attr(G, "bc", cmap="plasma")
fig, ax = ox.plot_graph(
G, bgcolor="k", node_color=nc, node_size=50, edge_linewidth=2, edge_color="#333333"
)
# save graph to shapefile, geopackage, or graphml
ox.save_graph_shapefile(G, filepath="./graph_shapefile/")
ox.save_graph_geopackage(G, filepath="./graph.gpkg")
ox.save_graphml(G, filepath="./graph.graphml")
|
