We have developed a variety of software that have been used for genetic, genomic and more generally, biomedical research. We have programs that are broadly distributed, have broad academic, research and commercial uses and perform reliably and precisely according to the computing demands of end-users. Additionally, we have programs that need more work and testing and others that are fully developed. Below are the programs th at we have developed with a brief description of each:
This is an SAS program that converts an ordinal trait to a quantitative trait, and prepares a data set that can be fed into FBAT for association analysis.
ABESS is the R-package that implements a polynomial time algorithm to identify the best-subset model in linear regression.
This is a program to construct classification trees for multiple binary responses. In Biomedical Research, many diagnoses are based on multiple items such as depression and anxiety. This program makes it possible to conduct analysis at the item level.
The Depth Importance in Precision Medicine (DIPM) method is a classification tree designed for the identification of subgroups relevant to the precision medicine setting.
A number of Matlab codes are provided for the implementation of eLASSO.
HapForest — Forest for Detecting Haplotypes and Interactions among Them in Association with a Disease
This program implements a forest-based approach to accommodate the haplotype uncertainties and variable importance to sort out significant haplotypes and their interactions in genomewide case-control association studies.
This program performs linkage analysis of ordinal traits for pedigree data. It implements a latent-variable proportional-odds logistic model that relates inheritance patterns to the distribution of the ordinal trait.
The standalone program takes a data structure similar to that of "CTMBR", except that there is a time variable "t". We also have an R package.
This is a program using modified screening and ranking algorithm to detect chromosome copy number variations. It is an optimal and accurate approach solving practical issues regarding CNV detection.
modSaRa2 — Modified Screening and Ranking Algorithm to Detect Chromosome Copy Number Variations Version 2
modSaRa2 is a novel improvement of our previously developed method modified Screening and Ranking algorithm (modSaRa) by integrating the relative allelic intensity with prior empirical statistics.
multiSaRa — A Screening and Ranking Algorithm to Detect Chromosome Copy Number Variations in Multiple Sequences
This is a program that enhances the screening and ranking algorithm to detect chromosome copy number variations in multiple sequences.
We provide two R functions to run pLASSO.
Program that analyzes relative risk and conducts sib pair linkage analysis using tree-based methods. This program can be executed to automatically generate a tree structure or allow the user to construct a tree of his or her choice.
This is a program to detect chromosome copy number variations. It is fast and possesses optimal theoretical properties.
simuRare a regression-based algorithm that imputes rare variants in currently available SNP array data, and performs a resampling approachto simulate samples that contain both common and rare SNPs.
Represents one of the most popular uses of tree-based methods. This program identifies prognostic factors that are predictive of survival outcome and time to an event of interest. It partitions a study sample into strata to reveal distinct patt erns of survival among subgroups.
TARV is a tree-based method to explore the association between rare variants and complex diseases, and find potential genetic and environmental factors and their interactions.
This program uses SAS PROC NLMIXED and PROC MIXED to conduct twin analysis to estimate heritability of binary and quantitative traits.
This is a software package that includes three classifiers: classification tree, random forest, and deterministic forest. This package is built on RTREE mainly to implement the most efficient memory use for SNP