single.change: Generating high-dimensional time series with exactly one...
In InspectChangepoint: High-Dimensional Changepoint Estimation via Sparse Projection
View source: R/single.change.R
single.change R Documentation
Generating high-dimensional time series with exactly one change in the mean
structure
Description
The data matrix is generated via X = mu + W, where mu is the mean structure matrix that captures the changepoint location and sparsity structure, and W is a random noise matrix.
Usage
single.change(n, p, k, z, vartheta, sigma = 1, shape = 3, noise = 0, corr = 0)
Arguments
n
Time length of the observation
p
Dimension of the multivariate time series
k
Number of coordinates that undergo a change
z
Changepoint location, a number between 1 and n-1.
vartheta
The root mean squared change magnitude in coordinates that undergo a change
sigma
noise level, see noise for more details.
shape
How the signal strength is distributed across signal coordinates. When shape = 0, all signal coordinates are changed by the same amount; when shape = 1, their signal strength are proportional to 1, sqrt(2), ..., sqrt(k); when shape = 2, they are proportional to 1, 2, ..., k; when shape = 3, they are proportional to 1, 1/sqrt(2), ..., 1/sqrt(k).
noise
Noise structure of the multivarite time series. For noise = 0, 0.5, 1, columns of W have independent multivariate normal distribution with covariance matrix Sigma. When noise = 0, Sigma = sigma^2 * I_p; when noise = 0.5, noise has local dependence structure given by Sigma_i,j = sigma*corr^|i-j|; when noise = 1, noise has global dependence structure given by matrix(corr,p,p)+diag(p)*(1-corr))) * sigma. When noise = 2, rows of the W are independent and each having an AR(1) structure given by W_j,t = W_j,t-1 * sqrt(corr) + rnorm(sd = sigma) * sqrt(1-corr). For noise = 3, 4, entries of W have i.i.d. uniform distribution and exponential distribution respectively, each centred and rescaled to have zero mean and variance sigma^2.
corr
Used to specify correlation structure in the noise. See noise for more details.
Value
An S3 object of the class 'hdchangeseq' is returned.
x - The generated data matrix
mu - The mean structure of the data matrix
See Also
plot.hdchangeseq
Examples
n <- 2000; p <- 100; k <- 10; z <- 800; vartheta <- 1; sigma <- 1
shape <- 3; noise <- 0; corr <- 0
obj <- single.change(n,p,k,z,vartheta,sigma, shape, noise, corr)
plot(obj, noise = TRUE)
InspectChangepoint documentation built on May 3, 2022, 9:07 a.m.
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View source: R/single.change.R
| single.change | R Documentation |
Generating high-dimensional time series with exactly one change in the mean structure
Description
The data matrix is generated via X = mu + W, where mu is the mean structure matrix that captures the changepoint location and sparsity structure, and W is a random noise matrix.
Usage
single.change(n, p, k, z, vartheta, sigma = 1, shape = 3, noise = 0, corr = 0)
Arguments
n |
Time length of the observation |
p |
Dimension of the multivariate time series |
k |
Number of coordinates that undergo a change |
z |
Changepoint location, a number between 1 and n-1. |
vartheta |
The root mean squared change magnitude in coordinates that undergo a change |
sigma |
noise level, see |
shape |
How the signal strength is distributed across signal coordinates. When shape = 0, all signal coordinates are changed by the same amount; when shape = 1, their signal strength are proportional to 1, sqrt(2), ..., sqrt(k); when shape = 2, they are proportional to 1, 2, ..., k; when shape = 3, they are proportional to 1, 1/sqrt(2), ..., 1/sqrt(k). |
noise |
Noise structure of the multivarite time series. For noise = 0, 0.5, 1, columns of W have independent multivariate normal distribution with covariance matrix Sigma. When noise = 0, Sigma = sigma^2 * I_p; when noise = 0.5, noise has local dependence structure given by Sigma_i,j = sigma*corr^|i-j|; when noise = 1, noise has global dependence structure given by matrix(corr,p,p)+diag(p)*(1-corr))) * sigma. When noise = 2, rows of the W are independent and each having an AR(1) structure given by W_j,t = W_j,t-1 * sqrt(corr) + rnorm(sd = sigma) * sqrt(1-corr). For noise = 3, 4, entries of W have i.i.d. uniform distribution and exponential distribution respectively, each centred and rescaled to have zero mean and variance sigma^2. |
corr |
Used to specify correlation structure in the noise. See |
Value
An S3 object of the class 'hdchangeseq' is returned.
x - The generated data matrix
mu - The mean structure of the data matrix
See Also
plot.hdchangeseq
Examples
n <- 2000; p <- 100; k <- 10; z <- 800; vartheta <- 1; sigma <- 1 shape <- 3; noise <- 0; corr <- 0 obj <- single.change(n,p,k,z,vartheta,sigma, shape, noise, corr) plot(obj, noise = TRUE)
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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