CpSdEwma: Classic Processing Shift-Detection based on EWMA (SD-EWMA).
In alaineiturria/otsad: Online Time Series Anomaly Detectors
CpSdEwma R Documentation
Classic Processing Shift-Detection based on EWMA (SD-EWMA).
Description
CpSdEwma calculates the anomalies of a dataset using
classical processing based on the SD-EWMA algorithm. This algorithm is a
novel method for covariate shift-detection tests based on a two-stage
structure for univariate time-series. It works in an online mode and it uses
an exponentially weighted moving average (EWMA) model based control chart to
detect the covariate shift-point in non-stationary time-series. See also
OcpSdEwma, the optimized and faster function of this function.
Usage
CpSdEwma(data, n.train, threshold = 0.01, l = 3)
Arguments
data
Numerical vector with training and test dataset.
n.train
Number of points of the dataset that correspond to the training set.
threshold
Error smoothing constant.
l
Control limit multiplier.
Details
data must be a numerical vector without NA values.
threshold must be a numeric value between 0 and 1.
It is recommended to use low values such as 0.01 or 0.05. By default, 0.01 is
used. Finally, l is the parameter that determines the control limits.
By default, 3 is used.
Value
dataset conformed by the following columns:
is.anomaly
1 if the value is anomalous 0, otherwise.
ucl
Upper control limit.
lcl
Lower control limit.
References
Raza, H., Prasad, G., & Li, Y. (03 de 2015). EWMA model based
shift-detection methods for detecting covariate shifts in non-stationary
environments. Pattern Recognition, 48(3), 659-669.
Examples
## Generate data
set.seed(100)
n <- 180
x <- sample(1:100, n, replace = TRUE)
x[70:90] <- sample(110:115, 21, replace = TRUE)
x[25] <- 200
x[150] <- 170
df <- data.frame(timestamp = 1:n, value = x)
## Calculate anomalies
result <- CpSdEwma(
data = df$value,
n.train = 5,
threshold = 0.01,
l = 3
)
res <- cbind(df, result)
## Plot results
PlotDetections(res, title = "KNN-CAD ANOMALY DETECTOR")
alaineiturria/otsad documentation built on Jan. 12, 2023, 12:26 p.m.
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| CpSdEwma | R Documentation |
Classic Processing Shift-Detection based on EWMA (SD-EWMA).
Description
CpSdEwma calculates the anomalies of a dataset using
classical processing based on the SD-EWMA algorithm. This algorithm is a
novel method for covariate shift-detection tests based on a two-stage
structure for univariate time-series. It works in an online mode and it uses
an exponentially weighted moving average (EWMA) model based control chart to
detect the covariate shift-point in non-stationary time-series. See also
OcpSdEwma, the optimized and faster function of this function.
Usage
CpSdEwma(data, n.train, threshold = 0.01, l = 3)
Arguments
data |
Numerical vector with training and test dataset. |
n.train |
Number of points of the dataset that correspond to the training set. |
threshold |
Error smoothing constant. |
l |
Control limit multiplier. |
Details
data must be a numerical vector without NA values.
threshold must be a numeric value between 0 and 1.
It is recommended to use low values such as 0.01 or 0.05. By default, 0.01 is
used. Finally, l is the parameter that determines the control limits.
By default, 3 is used.
Value
dataset conformed by the following columns:
is.anomaly |
1 if the value is anomalous 0, otherwise. |
ucl |
Upper control limit. |
lcl |
Lower control limit. |
References
Raza, H., Prasad, G., & Li, Y. (03 de 2015). EWMA model based shift-detection methods for detecting covariate shifts in non-stationary environments. Pattern Recognition, 48(3), 659-669.
Examples
## Generate data set.seed(100) n <- 180 x <- sample(1:100, n, replace = TRUE) x[70:90] <- sample(110:115, 21, replace = TRUE) x[25] <- 200 x[150] <- 170 df <- data.frame(timestamp = 1:n, value = x) ## Calculate anomalies result <- CpSdEwma( data = df$value, n.train = 5, threshold = 0.01, l = 3 ) res <- cbind(df, result) ## Plot results PlotDetections(res, title = "KNN-CAD ANOMALY DETECTOR")
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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