This package is designed to be the end-user facing front-end to all the data related functionality that is spread out across the JuliaML ecosystem. Most of the following sub-categories are covered by a single back-end package that is specialized on that specific problem. Consequently, if one of the following topics is of special interest to you, make sure to check out the corresponding documentation of that package.
Where to begin?¶
If this is the first time you consider using MLDataUtils for your machine learning related experiments or packages, make sure to check out the “Getting Started” section; specifically “How to ...?”, which lists some of most common scenarios and links to the appropriate places that should guide you on how to approach these scenarios using the functionality provided by this or other packages.
While the sole focus of the whole package is on data-related functionality, we can further divide the provided types and functions into a number of quite heterogeneous sub-categories.
In a classification setting, one usually treats the desired output variable (also called ground truths, or targets) as a discrete categorical variable. That is true even if the values themself are of numerical type, which they often are for practical reasons. This package provides various tools needed to deal with classification targets of arbitrary format. This includes asserting if the targets are of a desired encoding, inferring the concrete encoding the targets are in and how many classes they represent, and converting from their native encoding to the desired one.
Data Access Pattern¶
Typical Machine Learning experiments require a lot of rather
mundane but error prone data handling glue code. One particularly
interesting category of data handling functionality are what we
call data access pattern. These “pattern” include
subsetting, resampling, iteration, and partitioning of
various types of data sets. The functionality was designed around
the key requirement of allowing any user-defined type to serve as
a custom data source and/or access pattern in a first class
manner. That said, there was also a lot of attention focused on
first class support for those types that are most commonly
employed to represent the data of interest, such as
This package contains a number of simple pre-processing strategies that are often applied for ML purposes, such as feature centering and rescaling.
When studying learning algorithm or other ML related functionality, it is usually of high interest to empirically test the behaviour of the system under specific conditions. Generators can provide the means to fabricate artificial data sets that observe certain attributes, which can help to deepen the understanding of the system under investigation.