Red and Black : Search for the Best

Data

Search for Best Configuration

M1 <- 1
M2 <- 10000
Xsum <- numeric(0)
Values_mat <- numeric(0)
for(k in M1:M2){
  set.seed(k)
  N <- nrow(class_roll) 
  class_roll$group <- 
    sample(1:N) %%
    2 %>%
    factor(levels = c(0, 1), labels = c("Red", "Black"))
  Xsum <- c(Xsum, red_and_black(class_roll)$Xsum)
  Values_mat <- rbind(Values_mat, red_and_black(class_roll)$Values)
}
colnames(Values_mat) <- paste0("X", 1:6)
# Values_mat
# pairs(Values_mat)
cor(Values_mat) %>%
  round(4)

##         X1      X2      X3      X4      X5      X6
## X1  1.0000  0.0101  0.0122  0.0020 -0.0195 -0.0118
## X2  0.0101  1.0000  0.0037 -0.0049 -0.0117  0.0008
## X3  0.0122  0.0037  1.0000 -0.0040 -0.0029 -0.0189
## X4  0.0020 -0.0049 -0.0040  1.0000 -0.0066 -0.0020
## X5 -0.0195 -0.0117 -0.0029 -0.0066  1.0000  0.0001
## X6 -0.0118  0.0008 -0.0189 -0.0020  0.0001  1.0000

names(Xsum) <- M1:M2
Xsum %>%
  summary %>%
  round(2) 

##    Min. 1st Qu.  Median    Mean 3rd Qu.    Max. 
##    4.63   16.48   20.55   21.04   24.97   50.67

Xsum %>%
  sd %>%
  round(2)

## [1] 6.31

Xsum %>%
  `<=`(7) %>%
  which %>%
  `[`(Xsum, .) %>%
  round(2)

## 1900 2370 2861 4469 5481 5963 6709 7945 8360 8590 8978 
## 4.63 5.78 6.29 6.59 6.99 6.63 5.95 6.95 6.94 6.42 6.98

Xmin <- names(Xsum[which(Xsum == min(Xsum))])
Xmin

## [1] "1900"

Plot

hist(Xsum, prob = TRUE, nclass = 30, xlim = c(0, 50), ylim = c(0, 0.065))
x <- seq(0, 50, by = 0.1)
lines(x, dchisq(x, df = 21), col = "red")
legend("topright", inset = 0.05, legend = c("Xsum", "Chi-square(21)"), col = c("black", "red"), lty = 1)

plot(density(Xsum), xlim = c(0, 50), main = "Density Estimation of Xsum")
lines(x, dchisq(x, df = 21), col = "red")
legend("topright", inset = 0.05, legend = c("Xsum", "Chi-square(21)"), col = c("black", "red"), lty = 1)

Randomization

set.seed(Xmin)
N <- nrow(class_roll) 
class_roll$group <- 
  sample(1:N) %%
  2 %>%
  factor(levels = c(0, 1), labels = c("Red", "Black"))
red_and_black(class_roll)

## $Values
## [1] 1.99869691 0.07409415 0.00000000 0.01576642 2.15304461 0.39122686
## 
## $Xsum
## [1] 4.632829

학번

class_roll$id_2 <-
  class_roll$id %>%
  ifelse(. <= 2015, "2015", .)
tbl1 <- class_roll %$%
  table(.$group, .$id_2 %>% substr(1, 4)) %>%
  `colnames<-`(c("2015 이전", 2016:2021)) 
tbl1 %>%
  pander

	2015 이전	2016	2017	2018	2019	2020	2021
Red	17	34	29	36	16	66	45
Black	15	34	35	38	19	66	36

X1min <- tbl1 %>%
  chisq.test(simulate.p.value = TRUE) %>%
  `[[`(1)
X1min

## X-squared 
##  1.998697

학번 홀짝

tbl2 <- class_roll$id %>%
  as.numeric %>%
  `%%`(2) %>%
  factor(levels = c(1, 0), labels = c("홀", "짝")) %>%
  table(class_roll$group, .) 
tbl2 %>%
  pander

	홀	짝
Red	121	122
Black	118	125

X2min <- tbl2 %>%
  chisq.test(simulate.p.value = TRUE) %>%
  `[[`(1)
X2min

##  X-squared 
## 0.07409415

학적 상태

tbl3 <- class_roll$status %>%
  table(class_roll$group, .) 
tbl3 %>%
  pander

	학생	휴학
Red	239	4
Black	239	4

X3min <- tbl3 %>%
  chisq.test(simulate.p.value = TRUE) %>%
  `[[`(1)
X3min

## X-squared 
##         0

e-mail 서비스업체

tbl4 <- class_roll$email %>%
  strsplit("@", fixed = TRUE) %>%
  sapply("[", 2) %>%
  `==`("naver.com") %>%
  ifelse("네이버", "기타서비스") %>%
  factor(levels = c("네이버", "기타서비스")) %>%
  table(class_roll$group, .) 
tbl4 %>%
  pander

	네이버	기타서비스
Red	205	38
Black	206	37

X4min <- tbl4 %>%
  chisq.test(simulate.p.value = TRUE) %>%
  `[[`(1)
X4min

##  X-squared 
## 0.01576642

전화번호의 분포

cut_label <- paste(paste0(0:9, "000"), paste0(0:9, "999"), 
                   sep = "~")
tbl5 <- class_roll$cell_no %>%
  substr(start = 8, stop = 11) %>%
  sapply(as.numeric) %>%
  cut(labels = cut_label, 
      breaks = seq(0, 10000, by = 1000)) %>%
  table(class_roll$group, .) 
tbl5 %>%
  pander

	0000~0999	1000~1999	2000~2999	3000~3999	4000~4999	5000~5999	6000~6999	7000~7999	8000~8999	9000~9999
Red	19	24	25	26	28	20	20	30	24	27
Black	22	19	20	27	31	24	22	28	25	25

X5min <- tbl5 %>%
  chisq.test(simulate.p.value = TRUE) %>%
  `[[`(1)
X5min

## X-squared 
##  2.153045

성씨 분포

f_name <- class_roll$name %>%
  substring(first = 1, last = 1) 
tbl6 <- f_name %>%
  `%in%`(c("김", "이", "박")) %>%
  ifelse(f_name, "기타") %>%
  factor(levels = c("김", "이", "박", "기타")) %>%
  table(class_roll$group, .) 
tbl6 %>%
  pander

	김	이	박	기타
Red	47	39	16	141
Black	45	44	15	139

X6min <- tbl6 %>%
  chisq.test(simulate.p.value = TRUE) %>%
  `[[`(1)
X6min

## X-squared 
## 0.3912269

Sum of Chi_Squares

Xsum_min <- X1min + X2min + X3min + X4min + X5min + X6min
Xsum_min

## X-squared 
##  4.632829