Histogram

Histograms visually summarize the distribution of a continuous numeric variable by measuring the frequency at which certain values appear in the dataset. The x-axis in a histogram is a number line that has been split into number ranges, or bins. For each bin, a bar is drawn in which the width of the bar represents the range of the bin, and the height of the bar represents the number of data points that fall into that range. Understanding the distribution of data is an important step in the data exploration process.

Variable

Histograms require one continuous Number variable on the x-axis.

Multiple series

The following video demonstrates how to create multiple series histograms using the Split by field:

Play Video

  • Video length: 0:57
  • This video was created with ArcGIS Pro 3.2.

You can create multiple series histograms by setting the Split by control. When the Split by control is set, the histogram is split into multiple series based on the number of unique categories in the field. For example, when displaying a histogram for a dataset related to housing prices, the Number control is set to SoldPrice to see the distribution of housing prices in a city. Setting the Split by control to Neighborhood splits the histogram into N series in which N is the number of unique neighborhood values. The multiple series histogram displays N minicharts, one for each unique Neighborhood value, so that the housing price distribution can be compared across the Split by values.

Note:

Category fields with many unique values are not appropriate for splitting a field into multiple series.

Multiple series histograms can only be displayed with a grid layout, which can be customized on the Series tab in the Chart Properties pane. You can customize the dimensions of a grid chart layout by setting the Mini charts per row value. For example, setting Mini charts per row to 3 displays a maximum of three charts per row—the total number of rows in the grid is determined by the number of series in the chart. Check the Show preview chart check box to dynamically explore each minichart in detail by choosing one to view in the larger preview chart.

Multiseries histogram

Transformation

Some analytical methods require that data be normally distributed. When the data is skewed (the distribution is lopsided), you may want to transform the data to make it normal. Histograms allow you to explore the effects of logarithmic and square root transformations on the distribution of data. For reference, you can add a normal distribution overlay to a histogram by checking the Show Normal distribution check box in the Chart properties pane.

Logarithmic transformation

The logarithmic transformation is often used when the data has a positively skewed distribution and there are a few large values. If these large values are located in the dataset, the log transformation will help make the variances more constant and normalize the data.

For example, the positively skewed distribution in the first chart below is transformed to a normal distribution using a logarithmic transformation in the second chart:

Two population charts

Note:

Logarithmic transformations can only be applied to numbers greater than zero.

Square root transformation

A square root transformation is similar to a logarithmic transformation in that it reduces right skewness of a dataset. Unlike logarithmic transformations, square root transformations can be applied to zero.

Note:

Square root transformations can only be applied to numbers greater than or equal to zero.

Inverse transformation

An inverse transformation takes the reciprocal (1/x) of each value (x) in the field.

Note:

Inverse transformations cannot be applied to zero values. If there are zero values in the field, they are evaluated as null values.

Box-Cox transformation

A Box-Cox transformation applies the following power function to normally distribute values:

Box-Cox transformation

where x' is the transformed value, x is the original value, λ1 is the Power parameter value, and λ2 is the Shift parameter value.

Note:

Box-Cox transformations can only be applied to positive values. When negative or zero values exist, use the Shift parameter to ensure that all values are positive.

Number of bins

The number of bins default value is the square root of the number of records in the dataset. You can adjust this by changing the Bins value on the Data tab of the Chart Properties pane. Changing the number of bins allows you to see more or less detail in the structure of the data.

Note:

Histograms are limited to a maximum of 64 bins. This limit is imposed because using too many bins often results in a noisy histogram in which the characteristics of the distribution are difficult to interpret.

Statistics

Several descriptive statistics are calculated and displayed as vertical lines on histograms. The mean and median are displayed with one line each, and one standard deviation above and below the mean is displayed using two lines. You can click these items in the chart legend to turn them on or off.

A statistics table is displayed on the Data tab of the Chart Properties pane, containing the following statistics for the selected numeric field:

  • Mean
  • Median
  • Standard Deviation
  • Count
  • Min
  • Max
  • Sum
  • Nulls
  • Skewness
  • Kurtosis

If the chart's source layer has a selection set, the statistics table will have one column displaying statistics for the full dataset and one column displaying statistics for only the selection set.

The statistics table also includes controls to turn the histogram's mean, median, and standard deviation lines on and off, and change their color.

To copy statistics from the Charts Properties pane into other windows or applications, right-click in the statistics table and choose Copy Table, Copy Row, or Copy Value.

Axes

Several options control the axes and related settings.

Axis bounds

Default bounds for axes are based on the range of data values represented on the axis. You can customize these values by providing a new axis bound value. You can set axis bounds to keep the scale of the chart consistent for comparison. Click the Reset button Reset to revert the axis bound to the default value.

Grid intervals

Configure grid intervals for the y-axis using the Interval control. The default grid interval is calculated automatically.

Number format

You can format the way an axis displays numeric values by specifying a number format category or defining a custom format string. For example, you can use $#,### as a custom format string to display currency values.

Appearance

Titles and description

The charts and axes default titles are based on the variable names and chart type. These can be edited on the General tab in the Chart Properties pane. You can also provide a value for the Description option, which is a block of text that appears at the bottom of the chart window.

Color

You can change the color of a histogram's bins using the color patch next to Bins on the Data tab of the Chart Properties pane.

Guides

Guide lines or ranges can be added to charts as a reference or to highlight significant values. To add a new guide, on the Guides tab in the Chart Properties pane, click Add guide. To draw a line, provide a value for Value where you want the line to draw. To create a range, provide a to value. You can also add text to a guide by specifying a Label value.

Example

The histogram below visualizes distribution of population density across Washington, D.C., census block groups using the following setting:

  • NumberPopulation Density

Histogram of population density

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