| ffused.ada {FastSF} | R Documentation |
Adaptive Fast Fused Regression
Description
This is a fast calculation function that solves the L0 fused problem via the primal dual active set algorithm. It fits a piecewise constant regression model by minimizing the number of breaks in derivative with constraints on the least squares error.
Usage
ffused.ada(y, tau = 1, s.max = 20, eps = 0.1)
Arguments
y |
Numeric vector of inputs. |
tau |
Step length for searching the best model, i.e., in the t-th iteration, a model with tau*t knots will be fitted. |
s.max |
The maximum nubmer of knots in the piecewise constant(breaks in the (k+1)-st derivative), default is 20 |
eps |
Early stop criterion. The algorithm stops when mean squared error is less than eps |
Value
y |
The observed response vector. Useful for plotting and other methods. |
beta |
Fitted value |
v |
Primal coefficient. The indexes of the nonzero values correspond to the locations of the breaks. |
beta.all |
Solution path of fitted value, beta, corresponding to different degrees of freedom. |
df |
A vector giving an unbiased estimate of the degrees of freedom of the fit, i.e., the number of nonzero values in |
Author(s)
Canhong Wen, Xueqin Wang, Yanhe Shen, Aijun Zhang
References
Wen,C., Wang, X., Shen, Y., and Zhang, A. (2017). "L0 trend filtering", technical report.
See Also
Examples
set.seed(111)
n <- 1000
sigma <- 0.5
y0 <- rep(0,n)
y0[100:150] <- 2.5
y0[400:600] <- -2.4
y0[800:810] <- 4
y <- y0 + sigma*rnorm(n)
re = ffused.ada(y, tau = 1, s.max = 10)