Package org.apache.commons.statistics.descriptive

Class StandardDeviation

java.lang.Object

org.apache.commons.statistics.descriptive.StandardDeviation

All Implemented Interfaces:

DoubleConsumer, DoubleSupplier, IntSupplier, LongSupplier, DoubleStatistic, StatisticAccumulator<StandardDeviation>, StatisticResult

public final class StandardDeviation
extends Object
implements DoubleStatistic, StatisticAccumulator<StandardDeviation>

Computes the standard deviation of the available values. The default implementations uses the following definition of the sample standard deviation:

\[ \sqrt{ \tfrac{1}{n-1} \sum_{i=1}^n (x_i-\overline{x})^2 } \]

where \( \overline{x} \) is the sample mean, and \( n \) is the number of samples.

• The result is NaN if no values are added.
• The result is NaN if any of the values is NaN or infinite.
• The result is NaN if the sum of the squared deviations from the mean is infinite.
• The result is zero if there is one finite value in the data set.

The use of the term \( n − 1 \) is called Bessel's correction. Omitting the square root, this provides an unbiased estimator of the variance of a hypothetical infinite population. If the biased option is enabled the normalisation factor is changed to \( \frac{1}{n} \) for a biased estimator of the sample variance. Note however that square root is a concave function and thus introduces negative bias (by Jensen's inequality), which depends on the distribution, and thus the corrected sample standard deviation (using Bessel's correction) is less biased, but still biased.

The accept(double) method uses a recursive updating algorithm based on West's algorithm (see Chan and Lewis (1979)).

The of(double...) method uses the corrected two-pass algorithm from Chan et al, (1983).

Note that adding values using accept and then executing getAsDouble will sometimes give a different, less accurate, result than executing of with the full array of values. The former approach should only be used when the full array of values is not available.

Supports up to 2⁶³ (exclusive) observations. This implementation does not check for overflow of the count.

This class is designed to work with (though does not require) streams.

Note that this instance is not synchronized. If multiple threads access an instance of this class concurrently, and at least one of the threads invokes the accept or combine method, it must be synchronized externally.

However, it is safe to use accept and combine as accumulator and combiner functions of Collector on a parallel stream, because the parallel instance of Stream.collect() provides the necessary partitioning, isolation, and merging of results for safe and efficient parallel execution.

References:

• Chan and Lewis (1979) Computing standard deviations: accuracy. Communications of the ACM, 22, 526-531. doi: 10.1145/359146.359152
• Chan, Golub and Levesque (1983) Algorithms for Computing the Sample Variance: Analysis and Recommendations. American Statistician, 37, 242-247. doi: 10.2307/2683386

Since:

1.1

See Also:

Standard deviation (Wikipedia), Bessel's correction, Jensen's inequality, Variance

Method Summary

Modifier and Type	Method	Description
void	accept(double value)	Updates the state of the statistic to reflect the addition of value.
StandardDeviation	combine(StandardDeviation other)	Combines the state of the other statistic into this one.
static StandardDeviation	create()	Creates an instance.
double	getAsDouble()	Gets the standard deviation of all input values.
static StandardDeviation	of(double... values)	Returns an instance populated using the input values.
StandardDeviation	setBiased(boolean v)	Sets the value of the biased flag.

Methods inherited from class java.lang.Object

clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Methods inherited from interface java.util.function.DoubleConsumer

andThen

Methods inherited from interface org.apache.commons.statistics.descriptive.StatisticResult

getAsBigInteger, getAsInt, getAsLong

Method Detail

create

public static StandardDeviation create()

Creates an instance.

The initial result is NaN.

Returns:

StandardDeviation instance.

of

public static StandardDeviation of(double... values)

Returns an instance populated using the input values.

Note: StandardDeviation computed using accept may be different from this standard deviation.

See StandardDeviation for details on the computing algorithm.

Parameters:

values - Values.

Returns:

StandardDeviation instance.

accept

public void accept(double value)

Updates the state of the statistic to reflect the addition of value.

Specified by:

accept in interface DoubleConsumer

Parameters:

value - Value.

getAsDouble

public double getAsDouble()

Gets the standard deviation of all input values.

When no values have been added, the result is NaN.

Specified by:

getAsDouble in interface DoubleSupplier

Returns:

standard deviation of all values.

combine

public StandardDeviation combine(StandardDeviation other)

Description copied from interface: StatisticAccumulator

Combines the state of the other statistic into this one.

Specified by:

combine in interface StatisticAccumulator<StandardDeviation>

Parameters:

other - Another statistic to be combined.

Returns:

this instance after combining other.

setBiased

public StandardDeviation setBiased(boolean v)

Sets the value of the biased flag. The default value is false. The bias term refers to the computation of the variance; the standard deviation is returned as the square root of the biased or unbiased sample variance. For further details see Variance.setBiased.

This flag only controls the final computation of the statistic. The value of this flag will not affect compatibility between instances during a combine operation.

Parameters:

v - Value.

Returns:

this instance

See Also:

Variance.setBiased(boolean)