1. 1 Ahmed K. Ezzat, Data, Text, and Web Mining for BI Data Mining and Big Data

2. 2 Outline Data Mining Overview Text Mining Overview Web Mining Overview

3. 333 Data Mining Overview

4. Learning Objectives Define data mining and list its objectives and benefits Understand different purposes and applications of data mining Understand different methods of data mining, especially clustering and decision tree models Build expertise in use of some data mining software 4

5. Learn the process of data mining projects Understand data mining pitfalls and myths Define text mining and its objectives and benefits Appreciate use of text mining in business applications Define Web mining and its objectives and benefits Learning Objectives 5

6. Data Mining Concepts and Applications Six factors behind the sudden rise in popularity of data mining 1. General recognition of the untapped value in large databases; 2. Consolidation of database records tending toward a single customer view; 3. Consolidation of databases, including the concept of an information warehouse; 4. Reduction in the cost of data storage and processing, providing for the ability to collect and accumulate data; 5. Intense competition for a customer’s attention in an increasingly saturated marketplace; and 6. The movement toward the de-massification of business practices 6

7. Data mining (DM) A process that uses statistical, mathematical, artificial intelligence and machine-learning techniques to extract and identify useful information and subsequent knowledge from large databases Data Mining Concepts and Applications 7

8. Major characteristics and objectives of data mining:  Data are often buried deep within very large databases, which sometimes contain data from several years; sometimes the data are cleansed and consolidated in a data warehouse  The data mining environment is usually client/server architecture or a Web-based architecture Data Mining Concepts and Applications 8

9. Major characteristics and objectives of data mining:  Sophisticated new tools help to remove the information buried in corporate files or archival public records; finding it involves massaging and synchronizing the data to get the right results.  The miner is often an end user, empowered by data drills and other power query tools to ask ad hoc questions and obtain answers quickly, with little or no programming skill Data Mining Concepts and Applications 9

10. Major characteristics and objectives of data mining:  Striking it rich often involves finding an unexpected result and requires end users to think creatively  Data mining tools are readily combined with spreadsheets and other software development tools; the mined data can be analyzed and processed quickly and easily  Parallel processing is sometimes used because of the large amounts of data and massive search efforts Data Mining Concepts and Applications 10

11. How data mining works  Data mining tools find patterns in data and may even infer rules from them  Three methods are used to identify patterns in data: 1. Simple models 2. Intermediate models 3. Complex models Data Mining Concepts and Applications 11

12. Classification Supervised induction used to analyze the historical data stored in a database and to automatically generate a model that can predict future behavior Common tools used for classification are:  Neural networks  Decision trees  If-then-else rules Data Mining Concepts and Applications 12

13. Clustering Partitioning a database into segments in which the members of a segment share similar qualities Association A category of data mining algorithm that establishes relationships about items that occur together in a given record Data Mining Concepts and Applications 13

14. Sequence discovery The identification of associations over time Visualization can be used in conjunction with data mining to gain a clearer understanding of many underlying relationships Data Mining Concepts and Applications 14

15. Regression is a well-known statistical technique that is used to map data to a prediction value Forecasting estimates future values based on patterns within large sets of data Data Mining Concepts and Applications 15

16. Hypothesis-driven data mining Begins with a proposition by the user, who then seeks to validate the truthfulness of the proposition Discovery-driven data mining Finds patterns, associations, and relationships among the data in order to uncover facts that were previously unknown or not even contemplated by an organization Data Mining Concepts and Applications 16

17. – Marketing – Banking – Retailing and sales – Manufacturing and production – Brokerage and securities trading – Insurance – Computer hardware and software – Government and defense – Airlines – Health care – Broadcasting – Police – Homeland security Data mining applications Data Mining Concepts and Applications 17

18. Data mining tools and techniques can be classified based on the structure of the data and the algorithms used:  Statistical methods  Decision trees Defined as a root followed by internal nodes. Each node (including root) is labeled with a question and arcs associated with each node cover all possible responses Data Mining Concepts and Applications 18

19. Data mining tools and techniques can be classified based on the structure of the data and the algorithms used:  Case-based reasoning  Neural computing  Intelligent agents  Genetic algorithms  Other tools Rule induction Data visualization Data Mining Concepts and Applications 19

20. A general algorithm for building a decision tree: 1. Create a root node and select a splitting attribute. 2. Add a branch to the root node for each split candidate value and label 3. Take the following iterative steps: a. Classify data by applying the split value. b. If a stopping point is reached, then create leaf node and label it. Otherwise, build another subtree Data Mining Concepts and Applications 20

21. Gini index Used in economics to measure the diversity of the population. The same concept can be used to determine the ‘purity’ of a specific class as a result of a decision to branch along a particular attribute/variable Data Mining Concepts and Applications 21

22. Data Mining Techniques and Tools 22

23. The ID3 algorithm decision tree approach  Entropy Measures the extent of uncertainty or randomness in a data set. If all the data in a subset belong to just one class, then there is no uncertainty or randomness in that dataset, therefore the entropy is zero Data Mining Techniques and Tools 23

24. Cluster analysis for data mining  Cluster analysis is an exploratory data analysis tool for solving classification problems  The object is to sort cases into groups so that the degree of association is strong between members of the same cluster and weak between members of different clusters Data Mining Techniques and Tools 24

25. Cluster analysis results may be used to:  Help identify a classification scheme  Suggest statistical models to describe populations  Indicate rules for assigning new cases to classes for identification, targeting, and diagnostic purposes  Provide measures of definition, size, and change in what were previously broad concepts  Find typical cases to represent classes Data Mining Techniques and Tools 25

26. Cluster analysis methods  Statistical methods  Optimal methods  Neural networks  Fuzzy logic  Genetic algorithms Each of these methods generally works with one of two general method classes:  Divisive  Agglomerative Data Mining Techniques and Tools 26

27. Hierarchical clustering method and example 1. Decide which data to record from the items 2. Calculate the distances between all initial clusters. Store the results in a distance matrix 3. Search through the distance matrix and find the two most similar clusters 4. Fuse those two clusters together to produce a cluster that has at least two items 5. Calculate the distances between this new cluster and all the other clusters 6. Repeat steps 3 to 5 until you have reached the pre- specified maximum number of clusters Data Mining Techniques and Tools 27

28. Classes of data mining tools and techniques as they relate to information and business intelligence (BI) technologies  Mathematical and statistical analysis packages  Personalization tools for Web-based marketing  Analytics built into marketing platforms  Advanced CRM tools  Analytics added to other vertical industry-specific platforms  Analytics added to database tools (e.g., OLAP)  Standalone data mining tools Data Mining Techniques and Tools 28

29. Data Mining Project Processes 29

30. Data Mining Project Processes 30

31. Knowledge discovery in databases (KDD) A comprehensive process of using data mining methods to find useful information and patterns in data Data Mining Project Processes 31

32. KDD process 1. Selection 2. Preprocessing 3. Transformation 4. Data mining 5. Interpretation/evaluation Data Mining Project Processes 32

33. 33 Text Mining Overview

34. Classification of data mining vs. text mining Classification of data mining vs. text mining 34 Finding Patterns FindingNuggets NovelNon-Novel Non-textual Data Standard Data Mining AnalyticsDatabase Queries Textual DataCPL & NLPReal Text Mining Information Retrieval

35. Text Mining Overview Classification of data mining vs. text mining Classification of data mining vs. text mining 35

36. 36 The Intelligence Pyramid 36

37. Text mining helps organizations:  Find the “hidden” content of documents, including additional useful relationships  Relate documents across previous unnoticed divisions  Group documents by common themes Text Mining Overview 37

38. Text Mining Overview Text mining Process Text mining Process 38  Text Preprocessing (NLP): text cleanup, tokenization, part-of-speech tagging, Word sense disambiguation, semantic structure  Text Transformation: text representation, doc feature selection  Attribute Selection: reduce dimensionality, remove irrelevant attributes  Pattern Discovery: classic data mining techniques  Interpretation Evaluation: terminate or iterate

39. How to mine text 1. Eliminate commonly used words (stop-words) 2. Replace words with their stems or roots (stemming algorithms) 3. Consider synonyms and phrases 4. Calculate the weights of the remaining terms Text Mining Overview 39

40. Text Mining Overview Text mining Text mining  Is a special case of data mining that aims at extracting useful information from non-structured or semi-structured textual data  Involves the process of structuring the input text and detect patterns and trends through data mining techniques such as statistical pattern learning  The above is typically done through using CPL/NLP engine to read free text, identify terms, classify the terms (noun, verb, adjective), disambiguate and perform fact extraction in the appropriate structure representation, simplify attributes, apply data mining techniques to discover patterns & trends, and evaluate for possible more iteration/refinement 40

41. Text Mining Overview Text mining Text mining  Typically text mining will entails the generation of meaningful indices from the unstructured text and then use various data mining algorithms leveraging these indices  Taxonomy – even with filtering the terms we still have very large number, and knowledge discovery typically relies on some hierarchy of terms to form results at higher level. Term taxonomy would enable the production of general association rules that capture relationship between groups of terms rather than individual terms  Ontology – would help us to do reasoning on the generated facts by associating terms with ontology concepts, e.g., OWL with semantic web triples. In this case we would be treating the triples as knowledge management system 41

42. Text Mining Overview Applications of text mining Applications of text mining  Automatic detection of e-mail spam or phishing through analysis of the document content  Automatic processing of messages or e-mails to route a message to the most appropriate party to process that message  Analysis of warranty claims, help desk calls/reports, and so on to identify the most common problems and relevant responses  Analysis of related scientific publications in journals to create an automated summary view of a particular discipline  Creation of a “relationship view” of a document collection  Qualitative analysis of documents to detect deception 42

43. 43 Web Mining Overview

44. Web mining Web mining The discovery and analysis of interesting and useful information from the Web, about the Web, and usually through Web-based tools 44

45. Web Mining Overview 45

46. Web Mining Overview Web content mining Web content mining The extraction of useful information from Web pages Web structure mining Web structure mining The development of useful information from the links included in the Web documents Web usage mining Web usage mining The extraction of useful information from the data being generated through webpage visits, transaction, etc. 46

47. Web Mining Overview Uses for Web mining Uses for Web mining:  Determine the lifetime value of clients  Design cross-marketing strategies across products  Evaluate promotional campaigns  Target electronic ads and coupons at user groups  Predict user behavior  Present dynamic information to users 47

48. Web Mining Overview 48

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