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The bestNormalize R package was designed to help find a normalizing transformation for a vector. There are many techniques that have been developed in this aim, however each has been subject to their own strengths/weaknesses, and it is unclear on how to decide which will work best until the data is observed. This package will look at a range of possible transformations and return the best one, i.e. the one that makes it look the most normal.

Note that some authors use the term “normalize” differently than in this package. We define “normalize”: to transform a vector of data in such a way that the transformed values follow a Gaussian distribution (or equivalently, a bell curve). This is in contrast to other such techniques designed to transform values to the 0-1 range, or to the -1 to 1 range.

This package also introduces a new adaptation of a normalization technique, which we call Ordered Quantile normalization (orderNorm(), or ORQ). ORQ transforms the data based off of a rank mapping to the normal distribution. This allows us to guarantee normally distributed transformed data (if ties are not present). The adaptation uses a shifted logit approximation on the ranks transformation to perform the transformation on newly observed data outside of the original domain. On new data within the original domain, the transformation uses linear interpolation of the fitted transformation.

To evaluate the efficacy of the normalization technique, the bestNormalize() function implements repeated cross-validation to estimate the Pearson’s P statistic divided by its degrees of freedom. This is called the “Normality statistic”, and if it is close to 1 (or less), then the transformation can be thought of as working well. The function is designed to select the transformation that produces the lowest P / df value, when estimated on out-of-sample data (estimating this on in-sample data will always choose the orderNorm technique, and is generally not the main goal of these procedures).

Installation

You can install the most recent (devel) version of bestNormalize from GitHub with:

# install.packages("devtools")
devtools::install_github("petersonR/bestNormalize")

Or, you can download it from CRAN with:

install.packages("bestNormalize")

Example

In this example, we generate 1000 draws from a gamma distribution, and normalize them:

set.seed(100)
x <- rgamma(1000, 1, 1)

# Estimate best transformation with repeated cross-validation
BN_obj <- bestNormalize(x, allow_lambert_s = TRUE)
#> Warning: package 'lamW' was built under R version 4.0.5
BN_obj
#> Best Normalizing transformation with 1000 Observations
#>  Estimated Normality Statistics (Pearson P / df, lower => more normal):
#>  - arcsinh(x): 3.6204
#>  - Box-Cox: 0.96
#>  - Center+scale: 6.7851
#>  - Exp(x): 50.8513
#>  - Lambert's W (type s): 1.0572
#>  - Log_b(x+a): 1.908
#>  - orderNorm (ORQ): 1.0516
#>  - sqrt(x + a): 1.4556
#>  - Yeo-Johnson: 1.7385
#> Estimation method: Out-of-sample via CV with 10 folds and 5 repeats
#>  
#> Based off these, bestNormalize chose:
#> Standardized Box Cox Transformation with 1000 nonmissing obs.:
#>  Estimated statistics:
#>  - lambda = 0.2739638 
#>  - mean (before standardization) = -0.3870903 
#>  - sd (before standardization) = 1.045498

# Perform transformation
gx <- predict(BN_obj)

# Perform reverse transformation
x2 <- predict(BN_obj, newdata = gx, inverse = TRUE)

# Prove the transformation is 1:1
all.equal(x2, x)
#> [1] TRUE

As of version 1.3, the package supports leave-one-out cross-validation as well. ORQ normalization works very well when the size of the test dataset is low relative to the training data set, so it will often be selected via leave-one-out cross-validation (which is why we set allow_orderNorm = FALSE here).

(BN_loo <- bestNormalize(x, allow_orderNorm = FALSE, allow_lambert_s = TRUE, loo = TRUE))
#> Best Normalizing transformation with 1000 Observations
#>  Estimated Normality Statistics (Pearson P / df, lower => more normal):
#>  - arcsinh(x): 14.0712
#>  - Box-Cox: 0.8077
#>  - Center+scale: 26.5181
#>  - Exp(x): 451.435
#>  - Lambert's W (type s): 1.269
#>  - Log_b(x+a): 4.5374
#>  - sqrt(x + a): 3.3655
#>  - Yeo-Johnson: 5.7997
#> Estimation method: Out-of-sample via leave-one-out CV
#>  
#> Based off these, bestNormalize chose:
#> Standardized Box Cox Transformation with 1000 nonmissing obs.:
#>  Estimated statistics:
#>  - lambda = 0.2739638 
#>  - mean (before standardization) = -0.3870903 
#>  - sd (before standardization) = 1.045498

It is also possible to visualize these transformations:

plot(BN_obj, leg_loc = "bottomright")

For a more in depth tutorial, please consult the package vignette, or the package website.