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# Anomaly Detection

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Introduction to Anomaly Detection and Data mining

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### Anomaly Detection

1. 1. Anomaly Detection<br />
2. 2. What are anomalies/outliers?<br /><ul><li>The set of data points that are considerably different than the remainder of the data</li></ul>Applications: <br /> Credit card fraud detection, <br />telecommunication fraud detection, <br />network intrusion detection, <br />fault detection<br />
3. 3. Variants of Anomaly/Outlier Detection Problems<br />Given a database D, find all the data points x D with anomaly scores greater than some threshold t<br />Given a database D, find all the data points x D having the top-n largest anomaly scores f(x)<br />Given a database D, containing mostly normal (but unlabeled) data points, and a test point x, compute the anomaly score of x with respect to D<br />
4. 4. Anomaly Detection<br />Challenges<br />How many outliers are there in the data?<br />Method is unsupervised<br /> Validation can be quite challenging (just like for clustering)<br />Finding needle in a haystack<br />Working assumption:<br />There are considerably more “normal” observations than “abnormal” observations (outliers/anomalies) in the data<br />
5. 5. Anomaly Detection Schemes <br />General Steps:<br />Build a profile of the “normal” behavior<br />Profile can be patterns or summary statistics for the overall population<br />Use the “normal” profile to detect anomalies<br />Anomalies are observations whose characteristicsdiffer significantly from the normal profile<br />
6. 6. Types of anomaly detection schemes<br /><ul><li>Statistical-based
7. 7. Distance-based
8. 8. Model-based</li></li></ul><li>Statistical Approaches<br />Assume a parametric model describing the distribution of the data (e.g., normal distribution) <br />Apply a statistical test that depends on <br />Data distribution<br />Parameter of distribution (e.g., mean, variance)<br />Number of expected outliers (confidence limit)<br />
9. 9. Grubbs’ Test<br />Detect outliers in univariate data<br />Assume data comes from normal distribution<br />Detects one outlier at a time, remove the outlier, and repeat<br />H0: There is no outlier in data<br />HA: There is at least one outlier<br />Grubbs’ test statistic: <br />Reject H0 if:<br />
10. 10. Statistical-based – Likelihood Approach<br />Assume the data set D contains samples from a mixture of two probability distributions: <br />M (majority distribution) <br />A (anomalous distribution)<br />General Approach:<br />Initially, assume all the data points belong to M<br />Let Lt(D) be the log likelihood of D at time t<br />
11. 11. Contd…<br />For each point xtthat belongs to M, move it to A<br /> Let Lt+1 (D) be the new log likelihood.<br /> Compute the difference,  = Lt(D) – Lt+1 (D)<br /> If  &gt; c (some threshold), then xt is declared as an anomaly and moved permanently from M to A<br />
12. 12. Limitations of Statistical Approaches <br />Most of the tests are for a single attribute<br />In many cases, data distribution may not be known<br />For high dimensional data, it may be difficult to estimate the true distribution<br />
13. 13. Distance-based Approaches<br />Data is represented as a vector of features<br />Three major approaches<br />Nearest-neighbor based<br />Density based<br />Clustering based<br />
14. 14. Nearest-Neighbor Based Approach<br />Approach:<br />Compute the distance between every pair of data points<br />There are various ways to define outliers:<br />Data points for which there are fewer than p neighboring points within a distance D<br />The top n data points whose distance to the kth nearest neighbor is greatest<br />The top n data points whose average distance to the k nearest neighbors is greatest <br />
15. 15. Density-based: LOF approach<br />For each point, compute the density of its local neighborhood<br />Compute local outlier factor (LOF) of a sample p as the average of the ratios of the density of sample p and the density of its nearest neighbors<br />Outliers are points with largest LOF value<br />
16. 16. Clustering-Based<br />Basic idea:<br />Cluster the data into groups of different density<br />Choose points in small cluster as candidate outliers<br />Compute the distance between candidate points and non-candidate clusters. <br />If candidate points are far from all other non-candidate points, they are outliers<br />
17. 17. Pros and Cons<br />Advantages: <br />No need to be supervised <br />Easily adaptable to on-line / incremental mode suitable for anomaly detection from temporal data <br />
18. 18. Pros and Cons<br />Drawbacks <br />Computationally expensive <br />Using indexing structures (k-d tree, R* tree) may alleviate this problem <br />If normal points do not create any clusters the techniques may fail <br />In high dimensional spaces, datais sparse and distances between any two data records may become quite similar. <br />Clustering algorithms may not give any meaningful clusters <br />
19. 19. conclusion<br />Anomaly detection in data mining is dealt in detail in this presentation<br />Types of anomaly detection and their merits and demerits are briefly discussed.<br />
20. 20. Visit more self help tutorials<br />Pick a tutorial of your choice and browse through it at your own pace.<br />The tutorials section is free, self-guiding and will not involve any additional support.<br />Visit us at www.dataminingtools.net<br />