Route networks represent the network of highways, cycleways, footways
and other ways along which transport happens. You can get route network
data from OpenStreetMap (e.g. via the
osmdata R package)
and other providers or transport network data.
Unlike routes, each segment geometry in a route network can only appear once.
stplanr can be used to convert a series of routes
into a route network, using the function
library(stplanr) library(sf) <- routes_fast_sf[2:6, 1] sample_routes $value <- rep(1:3, length.out = 5) sample_routes<- overline(sample_routes, attrib = "value") rnet plot(sample_routes["value"], lwd = sample_routes$value, main = "Routes") plot(rnet["value"], lwd = rnet$value, main = "Route network")
The above figure shows how
overline() breaks the routes
into segments with the same values and removes overlapping segments. It
is a form of geographic aggregation.
Route networks can be represented as a graph. Usually all segments are connected together, meaning the graph is connected. We can show that very simple network above is connected as follows:
= st_intersects(sample_routes) touching_list = igraph::graph.adjlist(touching_list) g ::is_connected(g) igraph#>  TRUE
A more complex network may not be connected in this way, as shown in the example below:
# piggyback::pb_download_url("r_key_roads_test.Rds") = "https://github.com/ropensci/stplanr/releases/download/0.6.0/r_key_roads_test.Rds" u = readRDS(url(u)) rnet_disconnected = sf::st_intersects(rnet_disconnected) touching_list = igraph::graph.adjlist(touching_list) g ::is_connected(g) igraph#>  FALSE :::plot.sfc_LINESTRING(rnet_disconnected$geometry)sf
The elements of the network are clearly divided into groups. We can identify these groups as follows:
$group = rnet_igroup(rnet_disconnected)rnet_disconnected
# plot(rnet$geometry) # plot(sln_nodes, add = TRUE) # xy_path <- sum_network_routes(sln = sln, start = xy_nodes, end = xy_nodes, sumvars = "length") # # xy_path = sum_network_links(sln = sln, start = xy_nodes, end = xy_nodes) # plot(rnet$geometry) # plot(xy_sf$geometry, add = TRUE) # plot(xy_path$geometry, add = TRUE, lwd = 5)
New nodes can be added to the network, although this should be done before the graph representation is created. Imagine we want to create a point half way along the the most westerly route segment in the network, near the coordinates -1.540, 53.826:
<- c(-1.540, 53.826) new_point_coordinates <- sf::st_sf(geometry = sf::st_sfc(sf::st_point(new_point_coordinates)), crs = 4326)p
Other approaches to working with route networks include: