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Machine Learning – Standard Deviation



Standard deviation is a measure of the amount of variation or dispersion of a set of data values around their mean. In machine learning, it is an important statistical concept that is used to describe the spread or distribution of a dataset.

Standard deviation is calculated as the square root of the variance, which is the average of the squared differences from the mean. The formula for calculating standard deviation is as follows −

$$sigma =sqrt{left [Sigma left ( x-mu right )^{2}/N right ]}$$

Where −

  • $sigma$is the standard deviation

  • $Sigma$ is the sum of

  • $x$ is the data point

  • $mu$ is the mean of the dataset

  • $N$ is the total number of data points

In machine learning, standard deviation is used to understand the variability of a dataset and to detect outliers. For example, in finance, standard deviation is used to measure the volatility of stock prices. In image processing, standard deviation can be used to detect image noise.

Types of Examples

Example 1

In this example, we will be using the NumPy library to calculate the standard deviation −

import numpy as np

data = np.array([1, 2, 3, 4, 5, 6])
std_dev = np.std(data)

print(''Standard deviation:'', std_dev)

Output

It will produce the following output −

Standard deviation: 1.707825127659933

Example 2

Let”s see another example in which we will calculate the standard deviation of each column in Iris flower dataset using Python and Pandas library −

import pandas as pd

# load the iris dataset

iris_df = pd.read_csv(''https://archive.ics.uci.edu/ml/machine-learningdatabases/iris/iris.data'',
   names=[''sepal length'', ''sepal width'', ''petal length'', ''petal width'', ''class''])

# calculate the standard deviation of each column
std_devs = iris_df.std()

# print the standard deviations
print(''Standard deviations:'')
print(std_devs)

In this example, we load the Iris dataset from the UCI Machine Learning Repository using Pandas” read_csv() method. We then calculate the standard deviation of each column using the std() method of the Pandas dataframe. Finally, we print the standard deviations for each column.

Output

On executing the code, you will get the following output −

Standard deviations:
sepal length    0.828066
sepal width     0.433594
petal length    1.764420
petal width     0.763161
dtype: float64

This example demonstrates how standard deviation can be used to understand the variability of a dataset. In this case, we can see that the standard deviation of the ”petal length” column is much higher than that of the other columns, which suggests that this feature may be more variable and potentially more informative for classification tasks.

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