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Data Management and Database Technologies 1 DATA MINING Extracting Knowledge From Data Petr Olmer CERN

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Presentation on theme: "Data Management and Database Technologies 1 DATA MINING Extracting Knowledge From Data Petr Olmer CERN"— Presentation transcript:

1 Data Management and Database Technologies 1 DATA MINING Extracting Knowledge From Data Petr Olmer CERN petr.olmer@cern.ch

2 Data Management and Database Technologies 2 Petr Olmer: Data Mining Motivation ● What if we do not know what to ask? ● How to discover a knowledge in databases without a specific query? Computers are useless, they can only give you answers.

3 Data Management and Database Technologies 3 Petr Olmer: Data Mining Many terms, one meaning ● Data mining ● Knowledge discovery in databases ● Data exploration ● A non trivial extraction of novel, implicit, and actionable knowledge from large databases. – without a specific hypothesis in mind! ● Techniques for discovering structural patterns in data.

4 Data Management and Database Technologies 4 Petr Olmer: Data Mining What is inside? ● Databases – data warehousing ● Statistics – methods – but different data source! ● Machine learning – output representations – algorithms

5 Data Management and Database Technologies 5 Petr Olmer: Data Mining CRISP-DM CRoss Industry Standard Process for Data Mining task specification task specification data understanding data understanding data preparation data preparation deployment evaluation modeling http://www.crisp-dm.org

6 Data Management and Database Technologies 6 Petr Olmer: Data Mining Input data: Instances, attributes ABCD Mon21ayes Wed19byes Mon23ano Sun23dyes Fri24cno Fri18dyes Sat20cno Tue21bno Mon25bno

7 Data Management and Database Technologies 7 Petr Olmer: Data Mining Output data: Concepts ● Concept description = what is to be learned ● Classification learning ● Association learning ● Clustering ● Numeric prediction

8 Data Management and Database Technologies 8 Petr Olmer: Data Mining Task classes ● Predictive tasks – Predict an unknown value of the output attribute for a new instance. ● Descriptive tasks – Describe structures or relations of attributes. – Instances are not related!

9 Data Management and Database Technologies 9 Petr Olmer: Data Mining Models and algorithms ● Decision trees ● Classification rules ● Association rules ● k-nearest neighbors ● Cluster analysis

10 Data Management and Database Technologies 10 Petr Olmer: Data Mining Decision trees Inner nodes – test a particular attribute against a constant Leaf nodes – classify all instances that reach the leaf a b ca class C1 class C1 class C2 class C2 class C1 = 5 blue red > 0 <= 0hot cold

11 Data Management and Database Technologies 11 Petr Olmer: Data Mining Classification rules If precondition then conclusion An alternative to decision trees Rules can be read off a decision tree – one rule for each leaf – unambiguous, not ordered – more complex than necessary If (a>=5) then class C1 If (a 0) then class C1 If (a<5) and (b=“red”) and (c=“hot”) then class C2

12 Data Management and Database Technologies 12 Petr Olmer: Data Mining Classification rules Ordered or not ordered execution? ● Ordered – rules out of context can be incorrect – widely used ● Not ordered – different rules can lead to different conclusions – mostly used in boolean closed worlds ● only yes rules are given ● one rule in DNF

13 Data Management and Database Technologies 13 Petr Olmer: Data Mining Decision trees / Classification rules 1R algorithm for each attribute: for each value of that attribute: count how often each class appears find the most frequent class rule = assign the class to this attribute-value calculate the error rate of the rules choose the rules with the smallest error rate

14 Data Management and Database Technologies 14 Petr Olmer: Data Mining Decision trees / Classification rules Naïve Bayes algorithm ● Attributes are – equally important – independent ● For a new instance, we count the probability for each class. ● Assign the most probable class. ● We use Laplace estimator in case of zero probability. ● Attribute dependencies reduce the power of NB.

15 Data Management and Database Technologies 15 Petr Olmer: Data Mining Decision trees ID3: A recursive algorithm ● Select the attribute with the biggest information gain to place at the root node. ● Make one branch for each possible value. ● Build the subtrees. ● Information required to specify the class – when a branch is empty: zero – when the branches are equal: a maximum – f(a, b, c) = f(a, b + c) + g(b, c) ● Entropy:

16 Data Management and Database Technologies 16 Petr Olmer: Data Mining Classification rules PRISM: A covering algorithm ● For each class seek a way of covering all instances in it. ● Start with: If ? then class C1. ● Choose an attribute-value pair to maximize the probability of the desired classification. – include as many positive instances as possible – exclude as many negative instances as possible ● Improve the precondition. ● There can be more rules for a class! – Delete the covered instances and try again. only correct unordered rules

17 Data Management and Database Technologies 17 Petr Olmer: Data Mining Association rules ● Structurally the same as C-rules: If - then ● Can predict any attribute or their combination ● Not intended to be used together ● Characteristics: – Support = a – Accuracy = a / (a + b) Cnon C Pab non Pcd

18 Data Management and Database Technologies 18 Petr Olmer: Data Mining Association rules Multiple consequences ● If A and B then C and D ● If A and B then C ● If A and B then D ● If A and B and C then D ● If A and B and D then C

19 Data Management and Database Technologies 19 Petr Olmer: Data Mining Association rules Algorithm ● Algorithms for C-rules can be used – very inefficient ● Instead, we seek rules with a given minimum support, and test their accuracy. ● Item sets: combinations of attribute-value pairs ● Generate items sets with the given support. ● From them, generate rules with the given accuracy.

20 Data Management and Database Technologies 20 Petr Olmer: Data Mining k-nearest neighbor ● Instance-based representation – no explicit structure – lazy learning ● A new instance is compared with existing ones – distance metric ● a = b, d(a, b) = 0 ● a <> b, d(a, b) = 1 – closest k instances are used for classification ● majority ● average

21 Data Management and Database Technologies 21 Petr Olmer: Data Mining Cluster analysis ● Diagram: how the instances fall into clusters. ● One instance can belong to more clusters. ● Belonging can be probabilistic or fuzzy. ● Clusters can be hierarchical.

22 Data Management and Database Technologies 22 Petr Olmer: Data Mining Data mining Conclusion ● Different algorithms discover different knowledge in different formats. ● Simple ideas often work very well. ● There’s no magic!

23 Data Management and Database Technologies 23 Petr Olmer: Data Mining Text mining ● Data mining discovers knowledge in structured data. ● Text mining works with unstructured text. – Groups similar documents – Classifies documents into taxonomy – Finds out the probable author of a document – … ● Is it a different task?

24 Data Management and Database Technologies 24 Petr Olmer: Data Mining How do mathematicians work Settings 1: – empty kettle – fire – source of cold water – tea bag How to prepare tea: – put water into the kettle – put the kettle on fire – when water boils, put the tea bag in the kettle Settings 2: – kettle with boiling water – fire – source of cold water – tea bag How to prepare tea: – empty the kettle – follow the previous case

25 Data Management and Database Technologies 25 Petr Olmer: Data Mining Text mining Is it different? ● Maybe it is, but we do not care. ● We convert free text to structured data… ● … and “follow the previous case”.

26 Data Management and Database Technologies 26 Petr Olmer: Data Mining Google News How does it work? ● http://news.google.com ● Search web for the news. – Parse content of given web sites. ● Convert news (documents) to structured data. – Documents become vectors. ● Cluster analysis. – Similar documents are grouped together. ● Importance analysis. – Important documents are on the top

27 Data Management and Database Technologies 27 Petr Olmer: Data Mining From documents to vectors ● We match documents with terms – Can be given (ontology) – Can be derived from documents ● Documents are described as vectors of weights – d = (1, 0, 0, 1, 1) – t1, t4, t5 are in d – t2, t3 are not in d

28 Data Management and Database Technologies 28 Petr Olmer: Data Mining TFIDF Term Frequency / Inverse Document Frequency TF(t, d) = how many times t occurs in d DF(t) = in how many documents t occurs at least once Term is important if its – TF is high – IDF is high Weight(d, t) = TF(t, d) · IDF(t)

29 Data Management and Database Technologies 29 Petr Olmer: Data Mining Cluster analysis Vectors – Cosine similarity On-line analysis – A new document arrives. – Try k-nearest neighbors. – If neighbors are too far, leave it alone.

30 Data Management and Database Technologies 30 Petr Olmer: Data Mining Text mining Conclusion ● Text mining is very young. – Research is on-going heavily ● We convert text to data. – Documents to vectors – Term weights: TFIDF ● We can use data mining methods. – Classification – Cluster analysis – …

31 Data Management and Database Technologies 31 Petr Olmer: Data Mining References ● Ian H. Witten, Eibe Frank: Data Mining: Practical Machine Learning Tools and Techniques with Java Implementations ● Michael W. Berry: Survey of Text Mining: Clustering, Classification, and Retrieval ● http://kdnuggets.com/ ● http://www.cern.ch/Petr.Olmer/dm.html

32 Data Management and Database Technologies 32 Questions? Petr Olmer petr.olmer@cern.ch Computers are useless, they can only give you answers.

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