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Mean-Variance Regularization: a non-parametric method for joint adaptive mean-variance regularization and variance stabilization of high-dimensional data
=============== ### Description
MVR (Mean-Variance Regularization) is a non-parametric method for joint adaptive mean-variance regularization and variance stabilization of high-dimensional data. It is suited for handling difficult problems posed by high-dimensional multivariate datasets (p >> n paradigm), such as in omics-type data, among which are that the variance is often a function of the mean, variable-specific estimators of variances are not reliable, and tests statistics have low powers due to a lack of degrees of freedom.
Key features include:
Normalization and/or variance stabilization of the data
Computation of mean-variance-regularized t-statistics (F-statistics to come)
Generation of diverse diagnostic plots
Computationally efficient implementation using C/C++ interfacing and an option for parallel computing to enjoy a fast and easy experience in the R environment
See also below the package news with the R command:
MVR.news()
.
All the codes are in the R folder and a manual (MVR.pdf) details the end-user (and internal) functions. At this stage and for simplicity, there are only 2 end-user function, 4 end-user diagnostic and plotting functions and 2 end-user datasets (synthetic and real). See the “MVR-package” introduction section of the manual for more details and examples.
============ ### Branches
=========== ### License
PRIMsrc is open source / free software, licensed under the GNU General Public License version 3 (GPLv3), sponsored by the Free Software Foundation. To view a copy of this license, visit GNU Free Documentation License.
============= ### Downloads
CRAN downloads since October 1, 2012, the month the RStudio CRAN mirror started publishing logs:
CRAN downloads in the last month:
CRAN downloads in the last week:
================ ### Requirements
MVR (>= 1.33.0) requires R-3.0.2 (2013-09-25). It was built and tested under R version 3.5.1 (2018-07-02) and Travis CI.
Installation has been tested on Windows, Linux, OSX and Solaris platforms.
================ ### Installation
MVR
from the
CRAN repository,
simply download and install the current version (1.33.0) from the CRAN
repository:install.packages("MVR")
MVR
from the GitHub repository, simply run
the following using devtools:install.packages("devtools")
library("devtools")
devtools::install_github("jedazard/MVR")
========= ### Usage
library("MVR")
MVR.news()
citation("MVR")
etc…
=================== ### Acknowledgments
Authors: + Jean-Eudes Dazard, Ph.D. (jean-eudes.dazard@case.edu) + Hua Xu, Ph.D. (huaxu77@gmail.com) + Alberto Santana, MBA. (ahs4@case.edu)
Maintainers: + Jean-Eudes Dazard, Ph.D. (jean-eudes.dazard@case.edu)
Funding/Provision/Help:
+ This work made use of the High Performance Computing Resource in the
Core Facility for Advanced Research Computing at Case Western Reserve
University. + This project was partially funded by the National
Institutes of Health NIH - National Cancer Institute (P30-CA043703).
============== ### References
Dazard J-E. and J. S. Rao. Joint Adaptive Mean-Variance Regularization and Variance Stabilization of High Dimensional Data. Comput. Statist. Data Anal. (2012), 56(7):2317-2333. (The Official Journal of the International Association for Statistical Computing).
Dazard J-E., Hua Xu and J. S. Rao. R package MVR for Joint Adaptive Mean-Variance Regularization and Variance Stabilization. In JSM Proceedings, Section for Statistical Programmers and Analysts. Miami Beach, FL, USA: American Statistical Association IMS - JSM, 3849-3863. JSM (2011).
Dazard J-E. and J. S. Rao. Regularized Variance Estimation and Variance Stabilization of High-Dimensional Data. In JSM Proceedings, Section for High-Dimensional Data Analysis and Variable Selection. Vancouver, BC, Canada: American Statistical Association IMS - JSM, 5295-5309. JSM (2010).
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.