| gibbs_cs_fpca {refund} | R Documentation |
Cross-sectional FoSR using a Gibbs sampler and FPCA
Description
Fitting function for function-on-scalar regression for cross-sectional data. This function estimates model parameters using a Gibbs sampler and estimates the residual covariance surface using FPCA.
Usage
gibbs_cs_fpca(
formula,
Kt = 5,
Kp = 2,
data = NULL,
verbose = TRUE,
N.iter = 5000,
N.burn = 1000,
SEED = NULL,
sig2.me = 0.01,
alpha = 0.1,
Aw = NULL,
Bw = NULL,
Apsi = NULL,
Bpsi = NULL
)
Arguments
formula |
a formula indicating the structure of the proposed model. |
Kt |
number of spline basis functions used to estimate coefficient functions |
Kp |
number of FPCA basis functions to be estimated |
data |
an optional data frame, list or environment containing the variables in the model. If not found in data, the variables are taken from environment(formula), typically the environment from which the function is called. |
verbose |
logical defaulting to |
N.iter |
number of iterations used in the Gibbs sampler |
N.burn |
number of iterations discarded as burn-in |
SEED |
seed value to start the sampler; ensures reproducibility |
sig2.me |
starting value for measurement error variance |
alpha |
tuning parameter balancing second-derivative penalty and zeroth-derivative penalty (alpha = 0 is all second-derivative penalty) |
Aw |
hyperparameter for inverse gamma controlling variance of spline terms for population-level effects |
Bw |
hyperparameter for inverse gamma controlling variance of spline terms for population-level effects |
Apsi |
hyperparameter for inverse gamma controlling variance of spline terms for FPC effects |
Bpsi |
hyperparameter for inverse gamma controlling variance of spline terms for FPC effects |
Author(s)
Jeff Goldsmith ajg2202@cumc.columbia.edu
References
Goldsmith, J., Kitago, T. (2016). Assessing Systematic Effects of Stroke on Motor Control using Hierarchical Function-on-Scalar Regression. Journal of the Royal Statistical Society: Series C, 65 215-236.