Following the template in OpenAlex’s oa-percentage tutorial, this vignette uses openalexR to answer:
How many of recent journal articles from the University of Pennsylvania are open access? And how many aren’t?
We first need to find the openalex.id
for University of Pennsylvania. We can do this by fetching for the
institutions entity and put “University of
Pennsylvania” in display_name or
display_name.search:
oa_fetch(
entity = "inst", # same as "institutions"
display_name.search = "\"University of Pennsylvania\""
) %>%
select(display_name, ror) %>%
knitr::kable()| display_name | ror |
|---|---|
| University of Pennsylvania | https://ror.org/00b30xv10 |
| California University of Pennsylvania | https://ror.org/01spssf70 |
| Hospital of the University of Pennsylvania | https://ror.org/02917wp91 |
| University of Pennsylvania Health System | https://ror.org/04h81rw26 |
| Indiana University of Pennsylvania | https://ror.org/0511cmw96 |
| University of Pennsylvania Press | https://ror.org/03xwa9562 |
| Cheyney University of Pennsylvania | https://ror.org/02nckwn80 |
We will use the first ror, 00b30xv10, as one of the filters for our query.
Alternatively, we could go to the autocomplete endpoint at https://explore.openalex.org/ to search for “University of Pennsylvania” and find the ror there!
All other filters are straightforward and explained in detailed in
the original jupyter notebook tutorial.
The only difference here is that, instead of grouping by
is_oa, we’re interested in the “trend” over the years, so
we’re going to group by publication_year, and perform the
query twice, one for is_oa = "true" and one for
is_oa = "false" .
open_access <- oa_fetch(
entity = "works",
institutions.ror = "00b30xv10",
type = "article",
from_publication_date = "2012-08-24",
is_paratext = "false",
is_oa = "true",
group_by = "publication_year"
)
closed_access <- oa_fetch(
entity = "works",
institutions.ror = "00b30xv10",
type = "article",
from_publication_date = "2012-08-24",
is_paratext = "false",
is_oa = "false",
group_by = "publication_year"
)
uf_df <- closed_access %>%
select(- key_display_name) %>%
full_join(open_access, by = "key", suffix = c("_ca", "_oa"))
uf_df
#> key count_ca key_display_name count_oa
#> 1 2018 4462 2018 5487
#> 2 2015 4337 2015 4570
#> 3 2025 4280 2025 7678
#> 4 2014 4234 2014 4416
#> 5 2013 4209 2013 4286
#> 6 2019 4158 2019 6342
#> 7 2022 4157 2022 7495
#> 8 2020 4150 2020 7866
#> 9 2021 4073 2021 7997
#> 10 2016 4010 2016 4803
#> 11 2024 3949 2024 8101
#> 12 2017 3927 2017 5058
#> 13 2023 3498 2023 8349
#> 14 2012 1316 2012 1041
#> 15 2026 1138 2026 1718Finally, we compare the number of open vs. closed access articles over the years:
uf_df %>%
filter(key <= 2021) %>% # we do not yet have complete data for 2022 and after
pivot_longer(cols = starts_with("count")) %>%
mutate(
year = as.integer(key),
is_oa = recode(
name,
"count_ca" = "Closed Access",
"count_oa" = "Open Access"
),
label = if_else(key < 2021, NA_character_, is_oa)
) %>%
select(year, value, is_oa, label) %>%
ggplot(aes(x = year, y = value, group = is_oa, color = is_oa)) +
geom_line(size = 1) +
labs(
title = "University of Pennsylvania's progress towards Open Access",
x = NULL, y = "Number of journal articles") +
scale_color_brewer(palette = "Dark2", direction = -1) +
scale_x_continuous(breaks = seq(2010, 2024, 2)) +
geom_text(aes(label = label), nudge_x = 0.1, hjust = 0) +
coord_cartesian(xlim = c(NA, 2022.5)) +
guides(color = "none")