custom_mims_unit: Compute both MIMS-unit and sensor orientations with custom...
In MIMSunit: Algorithm to Compute Monitor Independent Movement Summary Unit (MIMS-Unit)
custom_mims_unit R Documentation
Compute both MIMS-unit and sensor orientations with custom settings
Description
custom_mims_unit computes the Monitor Independent Motion Summary unit
and estimates the sensor orientations for the input multi-channel
accelerometer signal with custom settings. The input signal can be from
devices of any sampling rate and dynamic range. Please refer to the
manuscript for detailed description of the algorithm. Please refer to
functions for the intermediate steps: extrapolate for
extrapolation, iir for filtering,
aggregate_for_mims and aggregate_for_orientation
for aggregation.
Usage
custom_mims_unit(
df,
epoch = "5 sec",
dynamic_range,
noise_level = 0.03,
k = 0.05,
spar = 0.6,
filter_type = "butter",
cutoffs = c(0.2, 5),
axes = c(2, 3, 4),
use_extrapolation = TRUE,
use_filtering = TRUE,
combination = "sum",
allow_truncation = TRUE,
output_mims_per_axis = FALSE,
output_orientation_estimation = FALSE,
epoch_for_orientation_estimation = NULL,
before_df = NULL,
after_df = NULL,
use_gui_progress = FALSE,
st = NULL,
use_snapshot_to_check = FALSE
)
Arguments
df
dataframe. Input multi-channel accelerometer signal.
epoch
string. Any format that is acceptable by argument breaks
in method cut.POSIXt.For example, "1 sec", "1 min", "5
sec", "10 min". Default is "5 sec".
dynamic_range
numerical vector. The dynamic ranges of the input
signal. Should be a 2-element numerical vector. c(low, high), where
low is the negative max value the device can reach and high
is the positive max value the device can reach.
noise_level
number. The tolerable noise level in g unit, should
be between 0 and 1. Default is 0.03, which applies to most devices.
k
number. Duration of neighborhood to be used in local spline
regression for each side, in seconds. Default is 0.05, as optimized by
MIMS-unit algorithm.
spar
number. Between 0 and 1, to control how smooth we want to fit
local spline regression, 0 is linear and 1 matches all local points.
Default is 0.6, as optimized by MIMS-unit algorithm.
filter_type
string. The type of filter to be applied. Could be
'butter' for butterworth bandpass filter, 'ellip' for elliptic bandpass
filter or 'bessel' for bessel lowpass filter + average removal highpass
filter. Default is "butter".
cutoffs
numerical vector. Cut off frequencies to be used in filtering.
If filter_type is "bessel", the cut off frequency for lowpass filter
would be multiplied by 2 when being used. Default is 0.2Hz and 5Hz.
axes
numerical vector. Indices of columns that specifies the axis
values of the input signal. Default is c(2,3,4).
use_extrapolation
logical. If it is TRUE, the function will apply
extrapolation algorithm to the input signal, otherwise it will skip
extrapolation but only linearly interpolate the signal to 100Hz. Default is
TRUE.
use_filtering
logical. If it is TRUE, the function will apply bandpass
filtering to the input signal, otherwise it will skip the filtering.
Default is TRUE.
combination
string. Method to combine MIMS-unit values for each axis.
Could be "sum" for sum_up or "vm" for
vector_magnitude.
allow_truncation
logical. If it is TRUE, the algorithm will truncate
very small MIMS-unit values to zero. Default is TRUE.
output_mims_per_axis
logical. If it is TRUE, the output MIMS-unit
dataframe will have MIMS-unit values for each axis from the third column.
Default is FALSE.
output_orientation_estimation
logical. If it is TRUE, the function
will also estimate sensor orientations over each epoch. And the output will
be a list, with the first element being the MIMS-unit dataframe, and the
second element being the sensor orientation dataframe. Default is FALSE.
epoch_for_orientation_estimation
string. string. Any format that is
acceptable by argument breaks in method
cut.POSIXt.For example, "1 sec", "1 min", "5 sec", "10
min". Default is "5 sec". It is independent from epoch for
MIMS-unit.
before_df
dataframe. The multi-channel accelerometer signal comes
before the input signal to be prepended to the input signal during
computation. This is used to eliminate the edge effect during extrapolation
and filtering. If it is NULL, algorithm will run directly on the
input signal. Default is NULL.
after_df
dataframe. The multi-channel accelerometer signal comes after
the input signal to be append to the input signal. This is used to
eliminate the edge effect during extrapolation and filtering. If it is
NULL, algorithm will run directly on the input signal. Default is
NULL.
use_gui_progress
logical. If it is TRUE, show GUI progress bar on
windows platform. Default is FALSE.
st
character or POSIXct timestamp. An optional start time you can set to
force the epochs generated by referencing this start time. If it is NULL, the
function will use the first timestamp in the timestamp column as start time to
generate epochs. This is useful when you are processing a stream of data and
want to use a common start time for segmenting data. Default is NULL.
use_snapshot_to_check
logical. If TRUE, the function will use the first
100 rows or 10
the algorithm will use all data to check timestamp duplications. Default is FALSE.
Value
dataframe or list. If output_orientation_estimation is TRUE,
the output will be a list, otherwise the output will be the MIMS-unit
dataframe.
The first element will be the MIMS-unit dataframe, in which the first
column is the start time of each epoch in POSIXct format, and the second
column is the MIMS-unit value for the input signal, and the third column
and on are the MIMS-unit values for each axis of the input signal if
output_mims_per_axis is TRUE.
The second element will be the orientation dataframe, in which the first
column is the start time of each epoch in POSIXct format, and the second to
fourth column is the estimated orientations for the input signal.
How is it used in MIMS-unit algorithm?
This is the low-level entry
of MIMS-unit and orientation estimation algorithm. mims_unit
calls this function internally.
Note
This function allows you to run customized algorithm for MIMSunit and
sensor orientations.
before_df and after_df are often set when the accelerometer
data are divided into files of smaller chunk.
See Also
Other Top level API functions:
mims_unit(),
sensor_orientations(),
shiny_app()
Examples
# Use sample data for testing
df = sample_raw_accel_data
# compute mims unit values with custom parameter
output = custom_mims_unit(df, epoch = '1 sec', dynamic_range=c(-8, 8), spar=0.7)
head(output)
MIMSunit documentation built on June 21, 2022, 5:06 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| custom_mims_unit | R Documentation |
Compute both MIMS-unit and sensor orientations with custom settings
Description
custom_mims_unit computes the Monitor Independent Motion Summary unit
and estimates the sensor orientations for the input multi-channel
accelerometer signal with custom settings. The input signal can be from
devices of any sampling rate and dynamic range. Please refer to the
manuscript for detailed description of the algorithm. Please refer to
functions for the intermediate steps: extrapolate for
extrapolation, iir for filtering,
aggregate_for_mims and aggregate_for_orientation
for aggregation.
Usage
custom_mims_unit( df, epoch = "5 sec", dynamic_range, noise_level = 0.03, k = 0.05, spar = 0.6, filter_type = "butter", cutoffs = c(0.2, 5), axes = c(2, 3, 4), use_extrapolation = TRUE, use_filtering = TRUE, combination = "sum", allow_truncation = TRUE, output_mims_per_axis = FALSE, output_orientation_estimation = FALSE, epoch_for_orientation_estimation = NULL, before_df = NULL, after_df = NULL, use_gui_progress = FALSE, st = NULL, use_snapshot_to_check = FALSE )
Arguments
df |
dataframe. Input multi-channel accelerometer signal. |
epoch |
string. Any format that is acceptable by argument |
dynamic_range |
numerical vector. The dynamic ranges of the input
signal. Should be a 2-element numerical vector. |
noise_level |
number. The tolerable noise level in g unit, should be between 0 and 1. Default is 0.03, which applies to most devices. |
k |
number. Duration of neighborhood to be used in local spline regression for each side, in seconds. Default is 0.05, as optimized by MIMS-unit algorithm. |
spar |
number. Between 0 and 1, to control how smooth we want to fit local spline regression, 0 is linear and 1 matches all local points. Default is 0.6, as optimized by MIMS-unit algorithm. |
filter_type |
string. The type of filter to be applied. Could be 'butter' for butterworth bandpass filter, 'ellip' for elliptic bandpass filter or 'bessel' for bessel lowpass filter + average removal highpass filter. Default is "butter". |
cutoffs |
numerical vector. Cut off frequencies to be used in filtering.
If |
axes |
numerical vector. Indices of columns that specifies the axis
values of the input signal. Default is |
use_extrapolation |
logical. If it is TRUE, the function will apply extrapolation algorithm to the input signal, otherwise it will skip extrapolation but only linearly interpolate the signal to 100Hz. Default is TRUE. |
use_filtering |
logical. If it is TRUE, the function will apply bandpass filtering to the input signal, otherwise it will skip the filtering. Default is TRUE. |
combination |
string. Method to combine MIMS-unit values for each axis.
Could be "sum" for |
allow_truncation |
logical. If it is TRUE, the algorithm will truncate very small MIMS-unit values to zero. Default is TRUE. |
output_mims_per_axis |
logical. If it is TRUE, the output MIMS-unit dataframe will have MIMS-unit values for each axis from the third column. Default is FALSE. |
output_orientation_estimation |
logical. If it is TRUE, the function will also estimate sensor orientations over each epoch. And the output will be a list, with the first element being the MIMS-unit dataframe, and the second element being the sensor orientation dataframe. Default is FALSE. |
epoch_for_orientation_estimation |
string. string. Any format that is
acceptable by argument |
before_df |
dataframe. The multi-channel accelerometer signal comes
before the input signal to be prepended to the input signal during
computation. This is used to eliminate the edge effect during extrapolation
and filtering. If it is |
after_df |
dataframe. The multi-channel accelerometer signal comes after
the input signal to be append to the input signal. This is used to
eliminate the edge effect during extrapolation and filtering. If it is
|
use_gui_progress |
logical. If it is TRUE, show GUI progress bar on windows platform. Default is FALSE. |
st |
character or POSIXct timestamp. An optional start time you can set to force the epochs generated by referencing this start time. If it is NULL, the function will use the first timestamp in the timestamp column as start time to generate epochs. This is useful when you are processing a stream of data and want to use a common start time for segmenting data. Default is NULL. |
use_snapshot_to_check |
logical. If TRUE, the function will use the first 100 rows or 10 the algorithm will use all data to check timestamp duplications. Default is FALSE. |
Value
dataframe or list. If output_orientation_estimation is TRUE,
the output will be a list, otherwise the output will be the MIMS-unit
dataframe.
The first element will be the MIMS-unit dataframe, in which the first
column is the start time of each epoch in POSIXct format, and the second
column is the MIMS-unit value for the input signal, and the third column
and on are the MIMS-unit values for each axis of the input signal if
output_mims_per_axis is TRUE.
The second element will be the orientation dataframe, in which the first column is the start time of each epoch in POSIXct format, and the second to fourth column is the estimated orientations for the input signal.
How is it used in MIMS-unit algorithm?
This is the low-level entry
of MIMS-unit and orientation estimation algorithm. mims_unit
calls this function internally.
Note
This function allows you to run customized algorithm for MIMSunit and sensor orientations.
before_df and after_df are often set when the accelerometer
data are divided into files of smaller chunk.
See Also
Other Top level API functions:
mims_unit(),
sensor_orientations(),
shiny_app()
Examples
# Use sample data for testing df = sample_raw_accel_data # compute mims unit values with custom parameter output = custom_mims_unit(df, epoch = '1 sec', dynamic_range=c(-8, 8), spar=0.7) head(output)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.