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OptStiefelGBB.R
.Tensor Regression with Envelope Structure and Three Generic Envelope Estimation Approaches'' to
Tensor
Regression with Envelope Structure’’.res <- kroncov(En)
to
res <- try(kroncov(En))
in function
TRR.fit
, which is forgotten to be reverted in last
version.base::norm(x, 'F')
function with
sqrt(sum(x^2))
for some matrix x
.Data
segment of the printout of the
tensor
object, instead of just the first few elements, the
summarized results of all elements are printed.OptManiMulitBallGBB()
to the output of
ballGBB1D()
.TRR_sim -> TRRsim; TPR_sim -> TPRsim; TensEnv_dim -> TRRdim; ballGBB1D_bic -> oneD_bic; TensPLS_cv2d3d -> TPRdim; OptimballGBB1D -> OptM1D; EnvMU -> simplsMU
plot.Tenv
:
xlab = ""
, ylab = ""
,
axes = TRUE
, ask = TRUE
, remove arguments
xticks
, yticks
. axes
is a logical
value specifying whether the axes should be drawn. If
ask = TRUE
, user is prompted before the second plot is
shown (if exists).ECD, simplsMU, manifold1D, manifoldFG, OptM1D, OptMFG
:
Change optional arguments like maxiter
, tol
,
to three dots ...
fun1D, get_ini1D, ballGBB1D, OptManiMulitBallGBB
:
Collected into file “1Dfunction.R”. Help documentation are no longer
supported.MenvU_sim
: An option wishart = FALSE
is
provided to return the population matrices M
and
U
. Other argument like jitter
is also provided
which adds an scaler matrix to M
to ensures it
positive-definiteness.PMSE
: Calculates the prediction and mean squared error
for both TRR and TPR models.kroncov
: Add convergence criterion tol
and
the maximal iteration maxiter
.OptStiefelGBB
: Hide out
from the
output.manifoldFG
: Set default value for
Gamma_init
.ttt.R
: Change arguments X,Y
to
x,y
.oneD_bic
: Add the estimated envelope basis
Gamma
to the output.TRRdim
: Output the mean squared error using the
selected envelope basis.TRRdim, oneD_bic
: Argument multiD
is
changed to C
to comply with the paper Zhang X, Mai Q
(2018). “Model-Free Envelope Dimension Selection.” Electronic Journal of
Statistics.OptMFG
: New FG optimization function encapsulating the
core function OptStiefelGBB
.show
: overloads show
in package
rTensor
. With the overloaded show
, only the
first 6 elements of tensor is printed out.subspace()
, the formula of subspace
distance should be ||P_{A} - P_{B}||_F/√{2d}.x
was not binary.TRR.fit()
and TPR.fit()
. They can be passed
to argument x
.Tenv
class object, we remove S3 methods
vcov.Tenv()
. Use function std_err()
if the
standard error for the tensor coefficient from TRR.fit()
is
desired.EEG
. Refer to R help documentation
for more detailspredict.Tenv()
: if the argument
newdata
is missing, the fitted values from the fitted model
is returned.Xn
and Yn
in all
functions to x
and y
in accordance with other
popular functions, e.g., lm()
, glm()
,
etc.plot.Tenv()
: Change the name of argument
thrd
to level
.kroncov
: Data Tn
is centered before the
estimation.summary.Tenv
.ask
in plot.Tenv.Gamma
list into bat
and
square
datasets.bic_max
to
maxdim
in TensEnv_dim
, max_iter
to maxiter
in manifold1D
, epsilon
to tol
in ECD
, G_ini
to
Gamma_init
in manifoldFG
, G_hat
to Gamma
in manifoldFG
, Yhat
to
pred
in PMSE
.TRR
, TPR
as TRR.fit
,
TPR,fit
.print.Tenv
: Prints the call, coefficients from
TPR
and TRR
, make the output more
concise.print.summary.Tenv
: Print call, dimensions of X, Y,
sample size, mse, the coefficient and p_value. (invoked implicitly when
there is no assignment of summary.Tenv
).Xn
and Yn
in
functions: TensEnv_dim
, TensPLS_cv2d3d
,
Tenv
, Tenv_Pval
, TPR
and
TRR
.mvtnorm
in DESCRIPTION
, it
is not used in the package.Depends
in
DESCRIPTION
to Imports
except for
ManifoldOptim
.PMSE
,
TensEnv_dim
, TensPLS_cv2d3d
,
Tenv_Pval
.# Usage
> data("bat")
> data("square")
TPR
, TRR
:
Bhat
in the object returned from TPR
and TRR
is
renamed as coefficients
.fitted.values
and residuals
into
the output.Yn
can be vector or
matrix and Xn
can be matrix, array or tensor for
TPR
, Xn
can be vector or matrix and
Yn
can be matrix, array or tensor for
TRR
.FG_TRR
and FG_TPR
into
TRR
and TPR
. Add one more option for
method
, “FG”. Also add argument Gamma_init
for
“FG” method.Tenv_Pval
: Change the data type of outputs from array
to tensor. Change the name se_mat
to se
.PMSE
: Rewrite PMSE
. Xn
can be
matrix, array or tensor, Yn
can be vector or matrix, and
Bhat
can be vector, matrix, array or tensor as long as the
dimensions match the ones of Xn
and Yn
.TRR_sim
, TPR_sim
: Add two simulation
functions to generate data used in TRR and TPR which can help user
quickly test the functions.Construct S3 object for TRR
and TPR
with
class
attribute “Tenv”
> data("bat")
> fit <- TRR(bat$Xn, bat$Yn, method = "standard")
> class(fit)
> [1] "Tenv"
predict.Tenv
: Make predictions of new data.summary.Tenv
: Append dimensions of X,Y, sample size,
mse, p_val and s.e. to the output object from TPR
and
TRR
.plot.Tenv
: Draw the plot of coefficients from
TRR
and TPR
, and draw p_val plot from
TRR
.vcov.Tenv
: No covariance for coefficients. But for
TRR
, we print the standard error for coefficients.fitted.default
: Calculates the fitted Y for
TPR
and TRR
separately.residuals.default
: Calculate Y minus fitted Y for
TPR
and TRR
coef.default
: Print the coefficients for
TPR
and TRR
.FG_TPR
, FG_TRR
> Help pages for
deprecated functions are available at
help("TRES-deprecated")
.u=NULL
for TPR
and
TRR
.maxdim=10
and nfold=5
for
TensPLS_cv2d3d
PMSE
: now accept tensor Xn
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.