# calculating the outliers in R

I have a data frame like this:

x

``````Team 01/01/2012  01/02/2012  01/03/2012  01/01/2012 01/04/2012 SD Mean
A     100         50           40        NA         30       60  80
``````

I like to perform calculation on each cell to the mean and sd to calculate the outliers. For example,

``````abs(x-Mean) > 3*SD
``````

`x\$count<-c(1)` (increment this value if the above condition is met).

I am doing this to check the anomaly in my data set. If I know the column names, it would be easier to do the calculations, but number of columns will vary. Some cells may have NA in them.

I like to subtrack mean from each cell, and I tried this

``````x\$diff<-sweep(x, 1, x\$Mean, FUN='-')
``````

does not seem to be working, any ideas?

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If you provide us with a little sample data with `dput(head(x))`, then we can just cut and paste it into our browsers, and test our solutions. –  nograpes Oct 12 '12 at 21:40

Get your IQR (Interquartile range) and lower/upper quartile using:

``````lowerq = quantile(data)[2]
upperq = quantile(data)[3]
iqr = upperq - lowerq #Or use IQR(data)
``````

Compute the bounds for a mild outlier:

``````mild.threshold.upper = (iqr * 1.5) + upperq
mild.threshold.lower = lowerq - (iqr * 1.5)
``````

Any data point outside (> mild.threshold.upper or < mild.threshold.lower) these values is a mild outlier

To detect extreme outliers do the same, but multiply by 3 instead:

``````extreme.threshold.upper = (iqr * 3) + upperq
extreme.threshold.lower = lowerq - (iqr * 3)
``````

Any data point outside (> extreme.threshold.upper or < extreme.threshold.lower) these values is an extreme outlier

Hope this helps

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Should be `upperq = quantile(data)[4]` –  Ben Dec 19 '14 at 19:54

I have seen that you've asked some questions on doing things by row. You should avoid that. R follows the concept that columns represent variables and rows represent observations. Many functions are optimized according to this concept. If you need a wide or transposed output to a file you can rearrange your data just before writing to the file.

I assume that your data actually looks as shown in the question, but that you have more than one row.

``````df <- read.table(text="Team 01/01/2012  01/02/2012  01/03/2012  01/01/2012 01/04/2012 SD

Mean
A     100         50           40        NA         30       60  80
B     200         40           5         8          NA       NA  NA",check.names = FALSE,header=TRUE)

#needed because one date appears twice
df <- df[,]

#reshape the data
library(reshape2)
df <- melt(df,id="Team")
names(df)[2] <- "Date"

#remove the SD and Mean
df <- df[!df\$Date %in% c("SD","Mean"),]

#function to detect outliers
outfun <- function(x) {
abs(x-mean(x,na.rm=TRUE)) > 3*sd(x,na.rm=TRUE)
}

#test if function works
outfun(c(200,rnorm(10)))

#use function over all data
df3\$outlier.all <- outfun(df3\$value)

#apply function for each team
library(plyr)
df3 <- ddply(df3,.(Team),transform,outlier.team=outfun(value))
``````

Result:

``````           Date Team value outlier.all outlier.team
1    01/01/2012    A   100       FALSE        FALSE
2    01/02/2012    A    50       FALSE        FALSE
3    01/03/2012    A    40       FALSE        FALSE
4  01/01/2012.1    A    NA          NA           NA
5    01/04/2012    A    30       FALSE        FALSE
6    01/01/2012    B   200       FALSE        FALSE
7    01/02/2012    B    40       FALSE        FALSE
8    01/03/2012    B     5       FALSE        FALSE
9  01/01/2012.1    B     8       FALSE        FALSE
10   01/04/2012    B    NA          NA           NA
``````
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Hi @Roland. Thank you for your response. This is a special case where I have thousands of observations (rows), that I would like to find out the outliers and then graph them only. I am transforming dates to rows and trying to check each cell against the mean and count number of times it reached that outlier point. Then, I will pick 10 or 20 of the items and graph them. Basically, I am trying to catch the anamolies in my data set. –  user1471980 Oct 13 '12 at 23:42
@user1471980, well, my answer is a starting point to do this. It is actually not difficult to do in R (provided the data is in long format and I demonstrated how to achieve that). Depending on the number of observations (you write thousands but that could also mean hundred thousands) and data groups, other approaches might be preferable considering computation time. But you'd better ask a new question giving all information including your end goal if my answer is not sufficient. –  Roland Oct 14 '12 at 11:09
thank you for your input. As per your recommendation, I did create another question, hopefully I've made point - stackoverflow.com/questions/12888212/… –  user1471980 Oct 15 '12 at 1:31