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added new route by route analysis

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Ben Varick 2024-11-06 09:18:02 -06:00
parent 4c98d5a68d
commit e6614977c3
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1 changed files with 44 additions and 8 deletions
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cycling_route_analysis_brouter.Rmd
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@ -178,17 +178,51 @@ Notes: for each segment in bike_lts, this counts how many student's calculated r
```{r routeslts, eval = FALSE, echo = TRUE, results = "show", warning = FALSE, error = TRUE, message = FALSE}
getLTSForRoute <- function(i) {
lts_segments <- (bike_lts_buffer %>% filter(student_use > 0))$OBJECTID[st_intersects(bike_lts_buffer %>% filter(student_use > 0), routes %>% filter(student_number == i), sparse = FALSE)]
lts_max <- max(bike_lts_buffer %>% filter(OBJECTID %in% lts_segments) %>% pull(LTS_F), na.rm = TRUE)
lts_average <- mean(bike_lts_buffer %>% filter(OBJECTID %in% lts_segments) %>% pull(LTS_F), na.rm = TRUE)
# routes_lts[[as.character(i)]] <- data.frame("student_number" = c(as.character(i)), "lts_max" = c(lts_max), "lts_average" = c(lts_average))
return(data.frame("student_number" = i, "lts_max" = lts_max, "lts_average" = lts_average))
message(paste0("done - ", i, " of ", max(addresses_near$number)))
# Filter the routes for the current student number
current_route <- routes %>% filter(student_number == i)
# Find intersecting OBJECTIDs
intersecting_ids <- relevant_buffer$OBJECTID[lengths(st_intersects(relevant_buffer, current_route)) > 0]
# Filter relevant segments to calculate max and average lts
relevant_segments <- bike_lts_buffer %>% filter(OBJECTID %in% intersecting_ids)
# find all the segments of relevant_buffer that the current route passes through
current_route_lts_intersection <- st_intersection(current_route, relevant_segments)
# calculate segment length in meters
current_route_lts_intersection$"segment_length" <- as.double(st_length(current_route_lts_intersection))
# Return the result as a data frame
result <- data.frame(
student_number = i
, lts_max = max(current_route_lts_intersection$LTS_F)
, lts_average = weighted.mean(current_route_lts_intersection$LTS_F, current_route_lts_intersection$segment_length)
, lts_1_dist = sum(current_route_lts_intersection %>% filter(LTS_F == 1) %>% pull(LTS_F))
, lts_2_dist = sum(current_route_lts_intersection %>% filter(LTS_F == 2) %>% pull(LTS_F))
, lts_3_dist = sum(current_route_lts_intersection %>% filter(LTS_F == 3) %>% pull(LTS_F))
, lts_4_dist = sum(current_route_lts_intersection %>% filter(LTS_F == 4) %>% pull(LTS_F))
, route = as.data.frame(current_route_lts_intersection)
)
# Optional message for debugging/progress
message(paste0("done - ", i))
return(result)
}
# Start with routes_lts as a NULL list
routes_lts <- list(NULL)
# routes_lts <- lapply(head(addresses_near %>% arrange(number) %>% pull(number)),
# getLTSForRoute)
# Pre-filter the bike_lts_buffer for relevant student use
relevant_buffer <- bike_lts_buffer %>% filter(student_use > 0)
routes_lts <- lapply(head(addresses_near %>% arrange(number) %>% pull(number)),
getLTSForRoute)
system.time(routes_lts <- lapply(head(addresses_near %>% arrange(number) %>% pull(number)),
getLTSForRoute))
routes_lts <- mclapply(addresses_near %>% arrange(number) %>% pull(number),
getLTSForRoute,
@ -207,6 +241,8 @@ routes_lts <- mclapply(addresses_near %>% arrange(number) %>% pull(number),
routes_lts <- bind_rows(routes_lts)
ggmap(basemap) + geom_sf(data = routes_lts, inherit.aes = FALSE, aes(color = route.lts, geometry = routes_lts$route.geometry))
addresses_near <- left_join(addresses_near, routes_lts, join_by("number"=="student_number"))
```