By Danny Kaplan | May 30, 2019
One source of fairly large datasets is machine-learning repositories or contests such as Kaggle.
This example concerns a dataset available at a repository from the University of California at Irvine.
The data set, available here, is about YouTube viewer’s preferences among comedy videos. Attractive features of the dataset are:
- It has a simple structure: just three variables.
- The videos are (often?) still available on YouTube, providing some motivation for working with the data.
Process
- Download the ZIP file from the repository
- UNZIP
- Read in the data
file_name <- "/Users/kaplan/Downloads/comedy_comparisons/comedy_comparisons.train"
Clips <- readr::read_csv(file_name, col_names = FALSE)
names(Clips) <- c("left", "right", "winner")What to do
As usual, it isn’t clear what statistically informative concept can be illustrated with these data. It’s necessary to explore and see where the data takes you.
In the end, I decided on a simple-sounding question: Which is the best clip? The answer, as you’ll see, involves balancing the win rate and the number of trials.
Here’s the winner …
Exploring
The data are organized as three variables:
left and right contain ID numbers for videos on YouTube. winner indicates whether the left video or the right video were preferred by the viewer.
Some questions:
How many reviews are there? How many videos?
nrow(Clips)## [1] 912969length(unique(c(Clips$left, Clips$right)))## [1] 18474Which is the most preferred video?
Wins <- Clips %>% mutate(video = ifelse(winner == "left", left, right)) %>% group_by(video) %>% summarize(wins = n()) %>% arrange(desc(wins)) head(Wins)## # A tibble: 6 x 2 ## video wins ## <chr> <int> ## 1 C8IJnUM0yQo 33653 ## 2 W9y6nwBwwyQ 27708 ## 3 LLaKkC5U9Po 26273 ## 4 7zCIRPQ8qWc 21130 ## 5 YowPM7yZv2U 19894 ## 6 bOcugYjrvLg 19812tail(Wins)## # A tibble: 6 x 2 ## video wins ## <chr> <int> ## 1 zyVaOgXWTk8 1 ## 2 Zz01eubLEZU 1 ## 3 zZ6VsVmRub0 1 ## 4 zzGf8A-s-yo 1 ## 5 ZZlKQ4m_X3g 1 ## 6 ZzTF7BQ2Mps 1
But see the section on win rate below.
How many contests did each video appear in?
Lefts <- Clips %>% ungroup() %>% group_by(left) %>% summarize(nleft = n()) Rights <- Clips %>% ungroup() %>% group_by(right) %>% summarize(nright = n()) Contests <- Lefts %>% inner_join(Rights, by = c(left = "right")) %>% mutate(total = nleft + nright) %>% select(left, total)What’s the win rate? Perhaps insist that the p-value against the null of prob one-half be smaller than 0.001 or 0.0001. Or look at the lower bound of the 95% confidence interval on the number of wins.
Scores <- Wins %>% inner_join(Contests, by = c(video = "left")) %>% mutate(win_rate = wins / total) %>% mutate(p_value = 1 - pbinom(wins-1, p = 0.5, size = total )) %>% mutate(lower = qbinom(.025, total, win_rate)) %>% mutate(pessimist = lower / total)
Can you pick which is the best clip?
Plot <- gf_point(win_rate ~ log10(total), data = Scores, alpha = 0.03)
Plot
The highest scoring clips are among those with the fewest views.
According to the p-value, which is the best movie?
Scores %>%
filter(p_value < 0.0001) %>%
arrange(desc(pessimist))## # A tibble: 129 x 7
## video wins total win_rate p_value lower pessimist
## <chr> <int> <int> <dbl> <dbl> <dbl> <dbl>
## 1 HE7cxOa9pXg 23 25 0.92 9.72e- 6 20 0.8
## 2 VCVuWMSd4Nk 62 72 0.861 1.34e-10 56 0.778
## 3 0o-FA5hXaf4 38 44 0.864 4.72e- 7 33 0.75
## 4 oMgKyG_aAiE 28 32 0.875 9.65e- 6 24 0.75
## 5 DFMpoEsC-Tc 49 59 0.831 1.35e- 7 43 0.729
## 6 cQzPNT780bs 62 76 0.816 1.16e- 8 55 0.724
## 7 GVaPB-I0d30 49 60 0.817 3.78e- 7 43 0.717
## 8 iaYgMbiR9Rg 24 28 0.857 9.00e- 5 20 0.714
## 9 hED4Tz1JM50 75 94 0.798 2.41e- 9 67 0.713
## 10 3hacWx_k2Oo 56 69 0.812 8.42e- 8 49 0.710
## # … with 119 more rowsLinks to be best videos …