Sometimes, depending on the design of the experiment, you may decide not to define an interest period in Data Viewer prior to exporting the data. If this is the case, there are some functions in VWPre which can help to align the data to your critical stimulus. Specifically, these functions search for a specific Eyelink message which was read out during the recording sequence. They will align the samples to this message, and, if necessary, also apply a variable adjustment forward or backward in time. This depends on whether the message signals the onset of the stimulus itself, or rather, serves as a reference point for the onset of the stimulus.
In order to perform the alignment, you must first load your sample
report and complete the first two preprocessing steps using the
functions prep_data and relabel_na provided in
this package. These step will ensure that an Event column (unique index
of each recording sequence - typically the combination of Subject and
Trial) is created. A description of these can be found in the Basic Preprocessing
vignette.
Using the function check_msg_time you can see that the
TIMESTAMP values associated with the message are not the same for each
event. This indicates that alignment is required. Note that a regular
expression (regex) can be used here as the message string.
## # A tibble: 9 × 2
## SAMPLE_MESSAGE TIMESTAMP
## <fct> <dbl>
## 1 VowelOnset 1047469
## 2 VowelOnset 1062679
## 3 VowelOnset 1099738
## 4 VowelOnset 1107363
## 5 VowelOnset 1114682
## 6 VowelOnset 1165881
## 7 VowelOnset 1183191
## 8 VowelOnset 1200283
## 9 VowelOnset 1207406## Set ReturnData to TRUE to output full, event-specific information.If you are not sure which messages are in your data set, you can use
the function check_all_msgs. This will print all the
messages (along with Event, Subject, Trial, and Timestamp). By
specifiying ReturnData = TRUE, you can assign the output to
a dataframe for further sorting, etc.
## # A tibble: 4 × 1
## SAMPLE_MESSAGE
## <fct>
## 1 Preview
## 2 TargetOnset
## 3 VowelOnset
## 4 TIMER_search## Set ReturnData to TRUE to output full, event-specific information.The function align_msg is used to perform the alignment.
To do this you must specify the message text as a string to the
parameter Msg. Again, this string can contain a regular
expression (regex) on which to locate the message. The function finds
the instance of the message for each event and sets that sample as the
zero point. Consequently, this creates a new column called
Align, which represents the time sequence relative to the
message.
If we check the message time again, we now see that the message
occurs at time 0 in the Align column.
## # A tibble: 1 × 2
## SAMPLE_MESSAGE Align
## <fct> <dbl>
## 1 VowelOnset 0## Set ReturnData to TRUE to output full, event-specific information.To fully examine all events, you can include the parameter
ReturnData=TRUE and assign the output to an object in your
environment.
Once you have aligned the time sequence relative to the message, you
need to create the Time column using the function
create_time_series. This function returns the time series
column called Time which is required for subsequent
processing, plotting, and modeling of the data. In the example here, our
message relates specifically to the time at which the vowel in the word
was played (because we programmed Experiment Builder to output a message
for that). So, we do not need to specify an adjustment to the time
series. If, however, your critical stimulus did not occur exactly at the
message, but rather, before or after, an adjustment (i.e., negative or
positive value in milliseconds) can be applied to the time series, to
shift the zero point. This is done by specifying the Adjust
parameter. If, on the other hand, this adjustment differed trial by
trial, you can input a column name (present in your dataset) in
Adjust, which will apply the recording event specific
adjustment.
A positive value (3 in the example below) provided to
Adjust shifts the zero point to after the
reference point (i.e., Message), effectively moving the zero point
forward along the number line and causing the reference point to have a
negative time value.
| Smp1 | Smp2 | Smp3 | Smp4 | Smp5 | Smp6 | Smp7 | Smp8 | Smp9 | Smp10 | Smp11 | |
|---|---|---|---|---|---|---|---|---|---|---|---|
| Before | -4 | -3 | -2 | -1 | 0 | 1 | 2 | 3 | 4 | 5 | 6 |
| Old 0 | New 0 | ||||||||||
| After | -7 | -6 | -5 | -4 | -3 | -2 | -1 | 0 | 1 | 2 | 3 |
A negative value (-3 in the example below) provided to
Adjust shifts the zero point to before the
reference point (i.e., Message), effectively moving the zero point
backward along the number line and causing the reference point to have a
postive time value.
| Smp1 | Smp2 | Smp3 | Smp4 | Smp5 | Smp6 | Smp7 | Smp8 | Smp9 | Smp10 | Smp11 | |
|---|---|---|---|---|---|---|---|---|---|---|---|
| Before | -4 | -3 | -2 | -1 | 0 | 1 | 2 | 3 | 4 | 5 | 6 |
| New 0 | Old 0 | ||||||||||
| After | -1 | 0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 |
## No adjustment applied.The function check_time_series can be used to verify
that the time series was created. The function outputs a list of the
unique start values present in the data. In this example, we do not
expect all events to start with the same Time value, given that we
performed our own alignment without a relative interest period defined
in Data Viewer. As with check_msg_time, the list of Events
and Start Times can be returned as a data frame using the parameter
ReturnData.
## # A tibble: 9 × 1
## Start_Time
## <dbl>
## 1 -165
## 2 -191
## 3 -215
## 4 -289
## 5 -257
## 6 -188
## 7 -264
## 8 -338
## 9 -211## Set ReturnData to TRUE to output full, event-specific information.Perhaps more meaningfully, we can check the message time again. We can see that our message is still the zero point in the Time series column.
## # A tibble: 1 × 2
## SAMPLE_MESSAGE Time
## <fct> <dbl>
## 1 VowelOnset 0## Set ReturnData to TRUE to output full, event-specific information.At this point it is possible to proceed with preprocessing as usual. For details, please refer to the Basic Preprocessing vignette and continue by selecting a recording eye before binning the data.