Anomaly detection (or Outlier analysis) is the identification of items, events or observations which do not conform to an expected pattern or other items in a dataset. It is used is applications such as intrusion detection, fraud detection, fault detection and monitoring processes in various domains including energy, healthcare and finance. In this talk, we will introduce anomaly detection and discuss the various analytical and machine learning techniques used in in this field. Through a case study, we will discuss how anomaly detection techniques could be applied to energy data sets. We will also demonstrate, using R and Apache Spark, an application to help reinforce concepts in anomaly detection and best practices in analyzing and reviewing results.

1. Location:
Open Data Science Conference
May 21st 2016
Anomaly Detection
Techniques and Best Practices
2016 Copyright QuantUniversity LLC.
Presented By:
Sri Krishnamurthy, CFA, CAP
www.QuantUniversity.com
sri@quantuniversity.com

2. 2
Slides, code and questions about
the full 2-day workshop on Anomaly detection
to be held in Boston in July 2016,
See here: http://www.analyticscertificate.com/Anomaly/

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Sri Krishnamurthy
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4

5. 5
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7. (MATLAB version also available)

8. What is anomaly detection?
• Anomalies or outliers are data points within the datasets
that appear to deviate markedly from expected outputs.
• It is the process of finding patterns in data that do not
conform to a prior expected behavior.
• Anomaly detection is being employed more increasingly in
the presence of big data that is captured by sensors(IOT),
social media platforms, huge networks, etc. including
energy systems, medical devices, banking, network
intrusion detection, etc.
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9. 9
• Fraud Detection
• E-commerce
Examples

10. Anomaly Detection Methods
• Most outlier detection methods generate an output
that are:
▫ Real-valued outlier scores: quantifies the tendency of a
data point being an outlier by assigning a score or
probability to it.
▫ Binary labels: result of using a threshold to convert
outlier scores to binary labels, inlier or outlier.
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1. Graphical approach
2. Statistical approach
3. Machine learning approach
Three methodologies to Anomaly Detection

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 Boxplot
 Scatter plot
 Adjusted quantile plot
 Symbol plot

13. Graphical approaches
• Graphical methods utilize extreme value analysis, by which outliers
correspond to the statistical tails of probability distributions.
• Statistical tails are most commonly used for one dimensional
distributions, although the same concept can be applied to
multidimensional case.
• It is important to understand that all extreme values are outliers
but the reverse may not be true.
• For instance in one dimensional dataset of
{1,3,3,3,50,97,97,97,100}, observation 50 equals to mean and isn’t
considered as an extreme value, but since this observation is the
most isolated point, it should be considered as an outlier.
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14. Box plot
• A standardized way of displaying the
variation of data based on the five
number summary, which includes
minimum, first quartile, median, third
quartile, and maximum.
• This plot does not make any assumptions
of the underlying statistical distribution.
• Any data not included between the
minimum and maximum are considered
as an outlier.
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15. Boxplot
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See Graphical_Approach.R
Side-by-side boxplot for each variable

16. Scatter plot
• A mathematical diagram, which uses Cartesian coordinates for plotting ordered
pairs to show the correlation between typically two random variables.
• An outlier is defined as a data point that doesn't seem to fit with the rest of the
data points.
• In scatterplots, outliers of either intersection or union sets of two variables can
be shown.
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17. Scatterplot
17
See Graphical_Approach.R
Scatterplot of Sepal.Width and Sepal.Length

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• In statistics, a Q–Q plot is a probability plot, which is a graphical
method for comparing two probability distributions by plotting their
quantiles against each other.
• If the two distributions being compared are similar, the points in the
Q–Q plot will approximately lie on the line y = x.
Q-Q plot
Source: Wikipedia

19. Adjusted quantile plot
• This plot identifies possible multivariate outliers by calculating the Mahalanobis
distance of each point from the center of the data.
• Multi-dimensional Mahalanobis distance between vectors x and y in 𝑅 𝑛 can be
formulated as:
d(x,y) = x − y TS−1(x − y)
where x and y are random vectors of the same distribution with the covariance
matrix S.
• An outlier is defined as a point with a distance larger than some pre-determined
value.
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20. Adjusted quantile plot
• Before applying this method and many other parametric
multivariate methods, first we need to check if the data is
multivariate normally distributed using different
multivariate normality tests, such as Royston, Mardia, Chi-
square, univariate plots, etc.
• In R, we use the “mvoutlier” package, which utilizes
graphical approaches as discussed above.
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21. Adjusted quantile plot
21
Min-Max normalization before diving into analysis
Multivariate normality test
Outlier Boolean vector identifies the
outliers
Alpha defines maximum thresholding proportion
See Graphical_Approach.R

22. Adjusted quantile plot
22
See Graphical_Approach.R
Mahalanobis distances
Covariance matrix

23. Adjusted quantile plot
23
See Graphical_Approach.R

24. Symbol plot
• This plot plots two dimensional data, using robust Mahalanobis distances based
on the minimum covariance determinant(mcd) estimator with adjustment.
• Minimum Covariance Determinant (MCD) estimator looks for the subset of h
data points whose covariance matrix has the smallest determinant.
• Four drawn ellipsoids in the plot show the Mahalanobis distances correspond to
25%, 50%, 75% and adjusted quantiles of the chi-square distribution.
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25. Symbol plot
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See Graphical_Approach.R
Parameter “quan” defines the amount of observations,
which are used for minimum covariance determinant
estimations. The default is 0.5.
Alpha defines the amount of observations used for
calculating the adjusted quantile.

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 Hypothesis testing ( Chi-square test, Grubb’s test)
 Scores

27. Hypothesis testing
• This method draws conclusions about a sample point by testing whether it
comes from the same distribution as the training data.
• Statistical tests, such as the t-test and the ANOVA table, can be used on
multiple subsets of the data.
• Here, the level of significance, i.e, the probability of incorrectly rejecting the
true null hypothesis, needs to be chosen.
• To apply this method in R, “outliers” package, which utilizes statistical
tests, is used .
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28. Chi-square test
• Chi-square test performs a simple test for detecting outliers of univariate data
based on Chi-square distribution of squared difference between data and
sample mean.
• In this test, sample variance counts as the estimator of the population variance.
• Chi-square test helps us identify the lowest and highest values, since outliers
can exist in both tails of the data.
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29. Chi-square test
29
See Statistical_Approach.R
This function repeats the Chi-square test until it finds all
the outliers within the data.

30. Grubbs’ test
• Test for outliers for univariate data sets assumed to come from a normally
distributed population.
• Grubbs' test detects one outlier at a time. This outlier is expunged from the
dataset and the test is iterated until no outliers are detected.
• This test is defined for the following hypotheses:
H0: There are no outliers in the data set
H1: There is exactly one outlier in the data set
• The Grubbs' test statistic is defined as:
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31. Grubbs’ test
31
See Statistical_Approach.R
The above function repeats the Grubbs’ test until it finds
all the outliers within the data.

32. Grubbs’ test
32
See Statistical_Approach.R
Histogram of normal observations vs outliers)

33. Scores
• Scores quantifies the tendency of a data point being an outlier by assigning it a
score or probability.
• The most commonly used scores are:
▫ Normal score:
𝑥 𝑖 −𝑀𝑒𝑎𝑛
𝑠𝑡𝑎𝑛𝑑𝑎𝑟𝑑 𝑑𝑒𝑣𝑖𝑎𝑡𝑖𝑜𝑛
▫ T-student score:
(𝑧−𝑠𝑞𝑟𝑡 𝑛−2 )
𝑠𝑞𝑟𝑡(𝑧−1−𝑡2)
▫ Chi-square score:
𝑥 𝑖 −𝑀𝑒𝑎𝑛
𝑠𝑑
2
▫ IQR score: 𝑄3-𝑄1
• By using “score” function in R, p-values can be returned instead of scores.
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34. Scores
34
See Statistical_Approach.R
“type” defines the type of the score, such as
normal, t-student, etc.
“prob=1” returns the corresponding p-value.

35. Scores
35
See Statistical_Approach.R
By setting “prob” to any specific value, logical vector
returns the data points, whose probabilities are
greater than this cut-off value, as outliers.
By setting “type” to IQR, all values lower than first
and greater than third quartiles are considered and
difference between them and nearest quartile
divided by IQR is calculated.

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• Anomaly Detection
▫ Seasonal Hybrid ESD (S-H-ESD) builds upon the Generalized ESD test for
detecting anomalies.
▫ Anomaly detection referring to point-in-time anomalous data points that
could be global or local. A local anomaly is one that occurs inside a seasonal
pattern; Could be +ve or –ve.
▫ More details here: https://github.com/twitter/AnomalyDetection
• Breakout Detection
▫ A breakout is characterized in this package by two steady states and an
intermediate transition period that could be sudden or gradual
▫ Uses the E-Divisive with Medians algorithm; Can detect one or multiple
breakouts in a given time series and employs energy statistics to detect
divergence in mean. More details here:
(https://blog.twitter.com/2014/breakout-detection-in-the-wild )
Twitter packages

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• Twitter-R-Anomaly Detection tutorial.ipyb
Demo

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 Linear regression
 Piecewise/ segmented regression
 Clustering-based approaches

39. Linear regression
• Linear regression investigates the linear relationships between variables and
predict one variable based on one or more other variables and it can be
formulated as:
𝑌 = 𝛽0 + ෍
𝑖=1
𝑝
𝛽𝑖 𝑋𝑖
where Y and 𝑋𝑖 are random variables, 𝛽𝑖 is regression coefficient and 𝛽0 is a
constant.
• In this model, ordinary least squares estimator is usually used to minimize the
difference between the dependent variable and independent variables.
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40. Piecewise/segmented regression
• A method in regression analysis, in which the independent variable is
partitioned into intervals to allow multiple linear models to be fitted to data for
different ranges.
• This model can be applied when there are ‘breakpoints’ and clearly two
different linear relationships in the data with a sudden, sharp change in
directionality. Below is a simple segmented regression for data with two
breakpoints:
𝑌 = 𝐶0 + 𝜑1 𝑋 𝑋 < 𝑋1
𝑌 = 𝐶1 + 𝜑2 𝑋 𝑋 > 𝑋1
where Y is a predicted value, X is an independent variable, 𝐶0 and 𝐶1 are
constant values, 𝜑1 and 𝜑2 are regression coefficients, and 𝑋1 and 𝑋2 are
breakpoints.
40

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Anomaly detection vs Supervised learning

42. Piecewise/segmented regression
• For this example, we use “segmented” package in R to first illustrate piecewise
regression for two dimensional data set, which has a breakpoint around z=0.5.
42
See Piecewise_Regression.R
“pmax” is used for parallel maximization to
create different values for y.

43. Piecewise/segmented regression
• Then, we use linear regression to predict y values for each segment of z.
43
See Piecewise_Regression.R

44. Piecewise/segmented regression
• Finally, the outliers can be detected for each segment by setting some rules for
residuals of model.
44
See Piecewise_Regression.R
Here, we set the rule for the residuals corresponding to z
less than 0.5, by which the outliers with residuals below
0.5 can be defined as outliers.

45. Clustering-based approaches
• These methods are suitable for unsupervised anomaly detection.
• They aim to partition the data into meaningful groups (clusters) based on the
similarities and relationships between the groups found in the data.
• Each data point is assigned a degree of membership for each of the clusters.
• Anomalies are those data points that:
▫ Do not fit into any clusters.
▫ Belong to a particular cluster but are far away from the cluster centroid.
▫ Form small or sparse clusters.
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46. Clustering-based approaches
• These methods partition the data into k clusters by assigning each data point to
its closest cluster centroid by minimizing the within-cluster sum of squares
(WSS), which is:
෍
𝑘=1
𝐾
෍
𝑖∈𝑆 𝑘
෍
𝑗=1
𝑃
(𝑥𝑖𝑗 − 𝜇 𝑘𝑗)2
where 𝑆 𝑘 is the set of observations in the kth cluster and 𝜇 𝑘𝑗 is the mean of jth
variable of the cluster center of the kth cluster.
• Then, they select the top n points that are the farthest away from their nearest
cluster centers as outliers.
46

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Anomaly Detection vs Unsupervised Learning

48. Clustering-based approaches
• “Kmod” package in R is used to show the application of K-means model.
48
In this example the number of clusters is defined
through bend graph in order to pass to K-mod
function.
See Clustering_Approach.R

49. Clustering-based approaches
49
See Clustering_Approach.R
K=4 is the number of clusters and L=10 is
the number of outliers

50. Clustering-based approaches
50
See Clustering_Approach.R
Scatter plots of normal and outlier data points

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 Local outlier factor

52. Local Outlier Factor (LOF)
• Local outlier factor (LOF) algorithm first calculates the density of local
neighborhood for each point.
• Then for each object such as p, LOF score is defined as the average of the ratios
of the density of sample p and the density of its nearest neighbors. The number
of nearest neighbors, k, is given by user.
• Points with largest LOF scores are considered as outliers.
• In R, both “DMwR” and “Rlof” packages can be used for performing LOF model.
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53. Local Outlier Factor (LOF)
• The LOF scores for outlying points will be high because they are computed in
terms of the ratios to the average neighborhood reachability distances.
• As a result for data points, which distributed homogenously in the cluster, the
LOF scores will be close to one.
• Over a different range of values for k, the maximum LOF score will determine
the scores associated with the local outliers.
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54. Local Outlier Factor (R)
• LOF returns a numeric vector of scores for each observation in the data set.
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k, is the number of neighbors that is used in
calculation of local outlier scores.
See Density_Approach.R
Outlier indexes

55. Local Outlier Factor (R)
55
Local outliers are shown in
red.
See Density_Approach.R

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Local Outlier Factor (R)
Histogram of regular observations vs outliers
See Density_Approach.R

57. Summary
57
We have covered Anomaly detection
Introduction  Definition of anomaly detection and its importance in energy systems
 Different types of anomaly detection methods: Statistical, graphical and machine
learning methods
Graphical approach  Graphical methods consist of boxplot, scatterplot, adjusted quantile plot and symbol
plot to demonstrate outliers graphically
 The main assumption for applying graphical approaches is multivariate normality
 Mahalanobis distance methods is mainly used for calculating the distance of a point
from a center of multivariate distribution
Statistical approach  Statistical hypothesis testing includes of: Chi-square, Grubb’s test
 Statistical methods may use either scores or p-value as threshold to detect outliers
Machine learning approach  Both supervised and unsupervised learning methods can be used for outlier detection
 Piece wised or segmented regression can be used to identify outliers based on the
residuals for each segment
 In K-means clustering method outliers are defined as points which have doesn’t belong
to any cluster, are far away from the centroids of the cluster or shaping sparse clusters
Density approach  Local outlier factor algorithm is used to detect local outliers
 The relative density of a data point is compared the density of it’s k nearest neighbors. K
is mainly identified by user

58. (MATLAB version also available)
www.analyticscertificate.com

59. 59
Q&A
Slides, code and questions about
the full 2-day workshop on Anomaly detection
to be held in Boston in July 2016,
See here: http://www.analyticscertificate.com/Anomaly/

60. Thank you!
Sri Krishnamurthy, CFA, CAP
Founder and CEO
QuantUniversity LLC.
srikrishnamurthy
www.QuantUniversity.com
Contact
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