jfree-man
released this
19 Aug 19:39
·
312 commits
to main
since this release
Data release
Data was sourced and prepped using the following script.
library(dplyr)
library(tidyr)
## Data Sources
covid_canada_url <- "https://wzmli.github.io/COVID19-Canada/git_push/clean.Rout.csv"
google_url <- "https://www.gstatic.com/covid19/mobility/Global_Mobility_Report.csv"
apple_url <- "https://raw.githubusercontent.com/ActiveConclusion/COVID19_mobility/master/apple_reports/applemobilitytrends.csv"
covid_ca <- read.csv(covid_canada_url)
apple <- read.csv(apple_url,check.names=FALSE)
google <- read.csv(google_url)
macpan1.5_calibration <- readRDS(url("https://github.com/canmod/macpan2/raw/a06e9195d93dc4fa22a9d747607eecb003546144/misc/experiments/wastewater/macpan1-5_comparison_info.RDS"))
## Data Prep
covid_on <- (covid_ca
%>% filter(Province=="ON")
%>% select(Province,Date,Hospitalization,ICU,Ventilator,deceased,newConfirmations,newTests)
%>% mutate(newDeaths=c(NA,diff(deceased))
## ON hosp includes ICU, macpan_base model uses only acute care
, Hospitalization=Hospitalization-ICU)
%>% select(-deceased)
%>% pivot_longer(names_to="var",-c(Date,Province))
%>% setNames(tolower(names(.)))
%>% ungroup()
%>% mutate(var=if_else(var=="newConfirmations","report",if_else(var=="newDeaths","death",var)))
)
mobility = (
(apple
%>% filter(alternative_name == "ON", transportation_type == "driving")
%>% pivot_longer(cols=-c("geo_type","region","transportation_type","alternative_name","sub-region","country")
, names_to="date",names_transform = as.Date)
# create relative percent change (to match google data)
%>% mutate(value = value - 100)
%>% select(date, value)
)
%>% full_join(google
%>% filter(iso_3166_2_code == "CA-ON")
%>% mutate(date = as.Date(date))
%>% select(date,starts_with("retail_and_recreation"),starts_with("workplaces"))
)
%>% arrange(date)
# compute 7 day moving average
%>% mutate(across(where(is.numeric),~ stats::filter(.x, filter = rep(1/7, 7), sides = 2)))
# scale to have pre-pandemic value of 1
%>% mutate(across(where(is.numeric), ~ 1 + (.x/100)))
# compute average of all mobility values
%>% group_by(date)
%>% summarize(mobility_ind = mean(c_across(where(is.numeric)),na.rm = TRUE))
%>% ungroup()
%>% na.omit()
)
# combine covid data from all sources
covid_on = (covid_on
%>% mutate(date = as.Date(date))
# add wastewater data (reported incidence is already included in covid_on)
%>% bind_rows((macpan1.5_calibration$obs %>% filter(var == "W")))
# add mobility data
%>% bind_rows((mobility %>% rename(value = mobility_ind ) %>% mutate(var = "mobility_index")))
)
# remove observed data from RDS object (this is included in covid_on), remaining elements are from macpan 1.5 calibration
covid_on_macpan1.5_calibration = within(macpan1.5_calibration, rm(obs))
## Final Datasets:
# covid_on
# covid_ww_macpan1.5_calibration