mt_sample_entropy: Calculate sample entropy.
In mousetrap: Process and Analyze Mouse-Tracking Data
View source: R/sample_entropy.R
mt_sample_entropy R Documentation
Calculate sample entropy.
Description
Calculate sample entropy for each trajectory as a measure of the complexity
of movements along one specific dimension.
Usage
mt_sample_entropy(
data,
use = "tn_trajectories",
save_as = "measures",
dimension = "xpos",
m = 3,
r = NULL,
use_diff = TRUE,
verbose = FALSE
)
Arguments
data
a mousetrap data object created using one of the mt_import
functions (see mt_example for details). Alternatively, a trajectory
array can be provided directly (in this case use will be ignored).
use
a character string specifying which trajectory data should be
used.
save_as
a character string specifying where the calculated measures
should be stored.
dimension
a character string specifying the dimension based on which
sample entropy should be calculated. By default (xpos), the x-positions are
used.
m
an integer passed on to the sample entropy function (see Details).
r
a numeric value passed on to the sample entropy function (see
Details).
use_diff
logical indicating if the differences of the dimension values
should be computed before calculating sample entropy (which is done by
default, see Details).
verbose
logical indicating whether function should report its
progress.
Details
mt_sample_entropy calculates the sample entropy for each trajectory as
a measure of its complexity. Hehman et al (2015) provide details on how
sample entropy can be calculated and applied in mouse-tracking (following
Dale et al., 2007). They apply the sample entropy measure to the
differences between adjacent x-positions
(which is also the default here, as in a standard mouse-tracking task with
buttons located in the top-left and right corners mostly the movements in the
horizontal direction are of interest). Besides, they recommend using the
time-normalized trajectories so all trajectories have the same length.
Sample entropy is computed by comparing windows of a fixed size (specified
using m) across all recorded positions. Sample entropy is the
negative natural logarithm of the conditional probability that this window
remains similar across the trial (Hehman et al., 2015). A window is
considered to be similar to another if their distance is smaller than a
specified tolerance value (which can be specified using r). Hehman et
al. (2015) use a tolerance value of 0.2 * standard deviation of all
differences between adjacent x-positions in the dataset (which is the default
implemented here).
Value
A mousetrap data object (see mt_example).
If a data.frame with label specified in save_as (by default
"measures") already exists, the sample entropy values are added as
additional column.
If not, an additional data.frame will be added.
If a trajectory array was provided directly as data, only the
data.frame will be returned.
Author(s)
Pascal J. Kieslich
Dirk Wulff
Felix Henninger
References
Dale, R., Kehoe, C., & Spivey, M. J. (2007). Graded motor
responses in the time course of categorizing atypical exemplars.
Memory & Cognition, 35(1), 15-28.
Hehman, E., Stolier, R. M., & Freeman, J. B. (2015). Advanced mouse-tracking
analytic techniques for enhancing psychological science. Group
Processes & Intergroup Relations, 18(3), 384-401.
See Also
mt_measures for calculating other mouse-tracking
measures.
Examples
# Calculate sample entropy based on time-normalized
# trajectories and merge results with other meausres
# derived from raw trajectories
mt_example <- mt_measures(mt_example)
mt_example <- mt_time_normalize(mt_example,
save_as="tn_trajectories", nsteps=101)
mt_example <- mt_sample_entropy(mt_example,
use="tn_trajectories", save_as="measures",
dimension="xpos", m=3)
mousetrap documentation built on May 29, 2024, 11:39 a.m.
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View source: R/sample_entropy.R
| mt_sample_entropy | R Documentation |
Calculate sample entropy.
Description
Calculate sample entropy for each trajectory as a measure of the complexity of movements along one specific dimension.
Usage
mt_sample_entropy(
data,
use = "tn_trajectories",
save_as = "measures",
dimension = "xpos",
m = 3,
r = NULL,
use_diff = TRUE,
verbose = FALSE
)
Arguments
data |
a mousetrap data object created using one of the mt_import
functions (see mt_example for details). Alternatively, a trajectory
array can be provided directly (in this case |
use |
a character string specifying which trajectory data should be used. |
save_as |
a character string specifying where the calculated measures should be stored. |
dimension |
a character string specifying the dimension based on which sample entropy should be calculated. By default (xpos), the x-positions are used. |
m |
an integer passed on to the sample entropy function (see Details). |
r |
a numeric value passed on to the sample entropy function (see Details). |
use_diff |
logical indicating if the differences of the dimension values should be computed before calculating sample entropy (which is done by default, see Details). |
verbose |
logical indicating whether function should report its progress. |
Details
mt_sample_entropy calculates the sample entropy for each trajectory as
a measure of its complexity. Hehman et al (2015) provide details on how
sample entropy can be calculated and applied in mouse-tracking (following
Dale et al., 2007). They apply the sample entropy measure to the
differences between adjacent x-positions
(which is also the default here, as in a standard mouse-tracking task with
buttons located in the top-left and right corners mostly the movements in the
horizontal direction are of interest). Besides, they recommend using the
time-normalized trajectories so all trajectories have the same length.
Sample entropy is computed by comparing windows of a fixed size (specified
using m) across all recorded positions. Sample entropy is the
negative natural logarithm of the conditional probability that this window
remains similar across the trial (Hehman et al., 2015). A window is
considered to be similar to another if their distance is smaller than a
specified tolerance value (which can be specified using r). Hehman et
al. (2015) use a tolerance value of 0.2 * standard deviation of all
differences between adjacent x-positions in the dataset (which is the default
implemented here).
Value
A mousetrap data object (see mt_example).
If a data.frame with label specified in save_as (by default
"measures") already exists, the sample entropy values are added as
additional column.
If not, an additional data.frame will be added.
If a trajectory array was provided directly as data, only the
data.frame will be returned.
Author(s)
Pascal J. Kieslich
Dirk Wulff
Felix Henninger
References
Dale, R., Kehoe, C., & Spivey, M. J. (2007). Graded motor responses in the time course of categorizing atypical exemplars. Memory & Cognition, 35(1), 15-28.
Hehman, E., Stolier, R. M., & Freeman, J. B. (2015). Advanced mouse-tracking analytic techniques for enhancing psychological science. Group Processes & Intergroup Relations, 18(3), 384-401.
See Also
mt_measures for calculating other mouse-tracking measures.
Examples
# Calculate sample entropy based on time-normalized
# trajectories and merge results with other meausres
# derived from raw trajectories
mt_example <- mt_measures(mt_example)
mt_example <- mt_time_normalize(mt_example,
save_as="tn_trajectories", nsteps=101)
mt_example <- mt_sample_entropy(mt_example,
use="tn_trajectories", save_as="measures",
dimension="xpos", m=3)
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