bor
is an R
package designed to transform focal observations’ data, referring to the occurrence of social interactions, into asymmetric data matrices. Each matrix cell provides counts on the number of times a specific type of social interaction was initiated by the row subject and directed to the column subject.
Currently, the package includes three objects:
dtable()
a function that transforms raw focal observations’ data into a data frame more suitable for data analysis
countb()
a function that computes asymmetric data matrices, separately for each observer and type of social interaction, from a data frame with a structure similar to that of the output of dtable()
function
ex_field_data
a data frame containing an example of raw focal observations’ data; data frames passed to dtable()
function should have this structure.
Read bor
help file (?bor
) to learn more about this package.
# to install R packages from github you need the devtools package
# to install devtools from CRAN type:
install.packages("devtools")
# to install bor from github type:
devtools::install_github("davidnsousa/bor")
ex_field_data
details the required structure of raw focal observations’ data that can be passed to the dtable()
function. Below we present the first lines of this data frame:
## id1 act obs
## 1 s2 x 1
## 2 s3 0 1
## 3 s5 x 1
## 4 s1 +.s4 1
## 5 s1 x 1
## 6 s5 s4.-;s2.+ 1
id1
- focal subject’s identification code.This example includes 9 different subjects (coded s1 to s9).
act
- recorded social interactions (SIs) in each focal sample.ex_field_data
); whenever a subject’s id appears after the SI’s it means that the focal subject (id1 column) initiated a SI with that subject (see row 4).ex_field_data
, the 4th row indicates that the focal subject s1 initiated a + social interaction with subject s4, while the 6th row indicates that the focal subject s5 was involved in two social interactions- the first initiated by s4 (-), the second (+) initiated by s2.0s in this column refer to focal observations where no SIs were recorded, and xs refer to focal observations where the focal subject was unavailable for observation.
obs
- observer’s identification code.This example includes 2 different observers (coded 1 and 2).
See ?ex_field_data
for further details. dtable()
function does not require that the input data frame has matching column names to that of ex_field_data
, but input data frame should include three columns, with the type of data as described above and in the same column order.
The following uses dtable()
function to convert ex_field_data
data frame (see details above) in a new data frame (e.g., data) that can be passed to countb()
function. dtable()
function requires that recorded social interactions’ codes are provided (bset argument). In ex_field_data
these codes are + and -. Below we leave bsep, asep, missing and noc dtable()
’s arguments at their default values (“.”, “;”, “x”, “0” respectively). See ?dtable
for further details.
## id1 id2 sender_id1 behavior no_occurrence missing observer
## 1 s2 <NA> NA <NA> NA 1 1
## 2 s3 <NA> NA <NA> 1 NA 1
## 3 s5 <NA> NA <NA> NA 1 1
## 4 s1 s4 1 + NA NA 1
## 5 s1 <NA> NA <NA> NA 1 1
## 6 s5 s4 0 - NA NA 1
data
object has 7 columns: * id1
- focal subject’s identification code. * id2
- identification code of the social interactions partner. * sender_id1
- indicates whether the focal subject was the initiator/sender (coded 1) or the target of the social interaction (coded 0). * behavior
- indicates the code of the social interaction recorded. * no_occurrence
- indicates whether no social interaction were recorded (coded 1; NA otherwise). * missing
- indicates whether the focal subject was unavailable for observation (coded 1; NA otherwise). * observer
- observer’s identification code.
countb()
function can now be used on data
to compute asymmetric data matrices, containing the number of times a specific type of social interaction was initiated by the row subject and directed to the column subject (target), separately for each social interaction and for each observer. Data matrices are stored inside a list (e.g., observations).
## $`1`
## $`1`$`-`
## s1 s2 s3 s4 s5
## s1 0 1 0 0 2
## s2 0 0 0 0 1
## s3 0 0 0 1 0
## s4 0 0 1 0 1
## s5 0 1 1 1 0
##
## $`1`$`+`
## s1 s2 s3 s4 s5
## s1 0 1 1 1 0
## s2 0 0 2 0 2
## s3 2 0 0 0 0
## s4 0 1 0 0 0
## s5 0 0 0 1 0
##
##
## $`2`
## $`2`$`-`
## s1 s2 s3 s4 s5
## s1 0 0 1 2 0
## s2 0 0 0 3 0
## s3 0 1 0 1 0
## s4 0 2 1 0 1
## s5 1 1 1 0 0
##
## $`2`$`+`
## s1 s2 s3 s4 s5
## s1 0 0 1 0 0
## s2 0 0 0 2 0
## s3 0 1 0 2 1
## s4 0 0 1 0 0
## s5 1 0 1 0 0
data2
is a list of lists: one for each observer (in this example data2$`1`
and data2$`2`
). Inside each list there is one asymmetric interaction matrix per social interaction recorded (e.g., data2$`1`$`-`
). Cells in these matrices provide counts on the number of times a specific type of social interaction was initiated by the row subject and directed to the column subject.
See ?countb
for further details on the countb()
function.