Skip to main content

Prepare Data for Machine Processing

Depending on your downstream system, you may need to convert your data into numeric values of the expected form or to standardize the distribution of numeric values. This section summarizes some common statistical transformations that can be applied to columnar data to prepare it for use in downstream analytic systems.

Scaling

You can scale the values within a column using either of the following techniques.

Scale to zero mean and unit variance

Zero mean and unit variance scaling renders the values in the set to fit a normal distribution with a mean of 0 and a variance of 1. This technique is a common standard for normalizing values into a normal distribution for statistical purposes.

In the following example, the values in the POS_Sales column have been normalized to average 0, variance 1.

  • Remove mean: When selected, the existing mean (average) of the values is used as the center of the distribution curve.

    Anmerkung

    Re-centering sparse data by removing the mean may remove sparseness.

  • Scale to unit variance: When selected, the range of values are scaled such that their variance is 1. When deselected, the existing variance is maintained.

    Anmerkung

    Scaling to unit variance may not work well for managing outliers. Some additional techniques for managing outliers are outlined below.

Transformation Name

Scale column

Parameter: Column

POS_Sales

Parameter: Scaling method

Scale to zero mean and unit variance

Parameter: Remove mean

false

Parameter: Scale to unit variance

true

Parameter: Output options

Create new column

Parameter: New column name

scale_POS_Sales

Scale to min-max range

You can scale column values fitting between a specified minimum and maximum value. This technique is useful for distributions with very small standard deviation values and for preserving 0 values in sparse data.

The following example scales the TestScores column to a range of 0 and 1, inclusive.

Transformation Name

Scale column

Parameter: Column

TestScores

Parameter: Scaling method

Scale to a given min-max range

Parameter: Minimum

0

Parameter: Maximum

1

Parameter: Output options

Replace current column

Outliers

You can use several techniques for identifying statistical outliers in your dataset and managing them as needed.

Identify outliers

Suppose you need to remove the outliers from a column. Assuming a normal bell distribution of values, you can use the following formula to calculate the number of standard deviations a column value is from the column mean (average). In this case, the source column is POS_Sales.

Transformation Name

New formula

Parameter: Formula type

Multiple row formula

Parameter: Formula

(ABS(POS_Sales - AVERAGE(POS_Sales))) / STDEV(POS_Sales)

Parameter: New column name

stdevs_POS_Sales

Remove outliers

The new stdevs_POS_Sales column now contains the number of standard deviations from the mean for the corresponding value in POS_Sales. You can use the following transformation to remove the rows that contain outlier values for this column.

Tipp

An easier way to select these outlier values is to select the range of values in the stdevs_POS_Sales column histogram. Then, select the suggestion to delete these rows. You may want to edit the actual formula before you add it to your recipe.

In the following transformation, all rows that contain a value in POS_Sales that is greater than four standard deviations from the mean are deleted:

Transformation Name

Filter rows

Parameter: Condition

Custom formula

Parameter: Type of formula

Custom single

Parameter: Condition

4 <= stdevs_POS_Sales

Parameter: Action

Delete matching rows

Change outliers to mean values

You can also remove the effects of outliers be setting their value to the mean (average), which preserves the data in other columns in the row.

Transformation Name

Edit with formula

Parameter: Columns

POS_Sales

Parameter: Formula

IF(stdevs_POS_Sales > 4, AVERAGE(POS_Sales), POS_Sales)

Binning

You can modify your data to fit into bins of equal or custom size. For example, the lowest values in your range would be marked in the 0 bin, with larger values being marked with larger bin numbers.

Bins of equal size

You can bin numeric values into bins of equal size. Suppose your column contains numeric values 0-1000. You can bin values into equal ranges of 100 by creating 10 bins.

Transformation Name

Bin column

Parameter: Column

MilleBornes

Parameter: Select Option

Equal Sized Bins

Parameter: Number of Bins

10

Parameter: New column name

MilleBornesRating

Bins of custom size

You can also create custom bins. In the following example, the TestScores column is binned into the following bins. In a later step, these bins are mapped to grades:

Bins

Bin Range

Bin Number

Grade

59

0-59

0

F

69

60-69

1

D

79

70-79

2

C

89

80-89

3

B

90+

4

A

(no value)

I

First, you bin values into the bin numbers listed above:

Transformation Name

Bin column

Parameter: Column

TestScores

Parameter: Select option

Custom bin size

Parameter: Bins

59,69,79,89

Parameter: New column name

Grades

You can then use the following transformation to assign letters in the Grades column:

Transformation Name

Conditions

Parameter: Condition type

Case on single column

Parameter: Column to evaluate

Grades

Parameter: Case - 0

'F'

Parameter: Case - 1

'D'

Parameter: Case - 2

'C'

Parameter: Case - 3

'B'

Parameter: Case - 4

'A'

Parameter: Default value

'I'

Parameter: New column name

Grades_letters

One-Hot Encoding

One-hot encoding refers to distributing the listed values in a column into individual columns. Within each row of each individual column is a 0 or a 1, depending on whether the value represented by the column appears in the corresponding source column. The source column is untouched. This method of encoding allows for easier consumption of data in target systems.

Tipp

This transformation is particularly useful for columns containing a limited set of enumerated values.

In the following example, the values in the BrandName column are distributed into separate columns of binary values, with a maximum limit of 50 new columns.

Anmerkung

Be careful applying this to a column containing a wide variety of values, such as Decimal values. Your dataset can expand significantly in size. Use the max columns setting to constrain the upper limit on dataset expansion.

Transformation Name

One-hot encoding of values to columns

Parameter: Column

BrandName

Parameter: Max number of columns to create

50

Tipp

If needed, you can rename the columns to prepend the names with a reference to the source column.